#include <stdio.h>
#include <syslog.h>
#include <errno.h>
#include <fcntl.h>
#include <stdlib.h>
#include <string.h>
#include <dirent.h>
#include <unistd.h>
#include <time.h>
#include <stdarg.h>
#include <ctype.h>
#include <sys/wait.h>
#include <sys/ptrace.h>
#include <sys/types.h>
#include <sys/user.h>
#include <sys/syscall.h>
#include <sys/time.h>
#include <sys/resource.h>
#include <sys/signal.h>
//#include <sys/types.h>
#include <sys/stat.h>
#include <unistd.h>
#include <mysql/mysql.h>
#include <assert.h>
#include "okcalls.h"

#define IGNORE_ESOL //ignore the ending space char of lines while comparing
#define STD_MB 1048576LL
#define STD_T_LIM 2
#define STD_F_LIM (STD_MB << 5) //default file size limit 32m ,2^5=32
#define STD_M_LIM (STD_MB << 7) //default memory limit 128m ,2^7=128
#define BUFFER_SIZE 4096		//default size of char buffer 5120 bytes
#define LOCKMODE (S_IRUSR|S_IWUSR|S_IRGRP|S_IROTH)

#define OJ_WT0 0
#define OJ_WT1 1
#define OJ_CI 2
#define OJ_RI 3
#define OJ_AC 4
#define OJ_PE 5
#define OJ_WA 6
#define OJ_TL 7
#define OJ_ML 8
#define OJ_OL 9
#define OJ_RE 10
#define OJ_CE 11
#define OJ_CO 12
#define OJ_TR 13

#ifdef __arm__
struct user_regs_struct {
        long uregs[18];
};
#define ARM_r7          uregs[7]
#define ARM_ORIG_r0     uregs[17]

#define REG_SYSCALL ARM_r7
#endif

#ifdef __aarch64__
#define NT_PRSTATUS	1
#define NT_ARM_SYSTEM_CALL	0x404
#define ARM_cpsr	uregs[16]
#define ARM_pc		uregs[15]
#define ARM_lr		uregs[14]
#define ARM_sp		uregs[13]
#define ARM_ip		uregs[12]
#define ARM_fp		uregs[11]
#define ARM_r10		uregs[10]
#define ARM_r9		uregs[9]
#define ARM_r8		regs[8]
#define ARM_r7		uregs[7]
#define ARM_r6		uregs[6]
#define ARM_r5		uregs[5]
#define ARM_r4		uregs[4]
#define ARM_r3		uregs[3]
#define ARM_r2		uregs[2]
#define ARM_r1		uregs[1]
#define ARM_r0		uregs[0]
#define ARM_ORIG_r0	uregs[17]
#define PTRACE_GETREGS PTRACE_GETREGSET
#define PTRACE_SETREGS PTRACE_SETREGSET
#define REG_SYSCALL regs[18]

#endif 

#ifdef __mips__
	typedef unsigned long long uint64_t;
	struct user_regs_struct{
		uint64_t uregs[38];
	};


	#define REG_V0 2
	#define REG_A0 4

	#define mips_REG_V0 uregs[REG_V0]
	#define REG_SYSCALL mips_REG_V0

#endif

#ifdef __i386
#define REG_SYSCALL orig_eax
#define REG_RET eax
#define REG_ARG0 ebx
#define REG_ARG1 ecx
#endif

#ifdef __x86_64__
#define REG_SYSCALL orig_rax
#define REG_RET rax
#define REG_ARG0 rdi
#define REG_ARG1 rsi

#endif

//目录分布
//home/judge

//home/judge/data
//home/judge/data/1000			题目编号1000
//home/judge/data/1000/sample.in 样例数据输入
//home/judge/data/1000/sample.out 样例数据输出
//home/judge/data/1000/test.in	测试数据输入
//home/judge/data/1000/test.out	测试数据输出

//home/judge/etc
//home/judge/etc/java0.policy Java编译的配置
//home/judge/etc/judge.conf 配置文件，core与web为轮询数据库方式下

//home/judge/log 如果启用调试，日志保存目录
//home/judge/run0	可以启用的调试进程0 -3共4个默认的 也就是max_ruuning 默认值
//home/judge/run1
//home/judge/run2
//home/judge/run3

static int DEBUG = 0;//是否启用调试默认否
static char host_name[BUFFER_SIZE/10];//主机地址
static char user_name[BUFFER_SIZE/10];//用户名
static char password[BUFFER_SIZE/10];//密码
static char db_name[BUFFER_SIZE/10];//数据库名称
static char oj_home[BUFFER_SIZE/10];//判题目录 默认/home/judge
static char data_list[BUFFER_SIZE][BUFFER_SIZE];
static int data_list_len = 0;
static char lock_file[BUFFER_SIZE]="/home/judge/run0/judge_client.pid";

static int port_number;//端口
static int max_running;//最大的进程数
static int sleep_time;//轮询时间间隔
static int java_time_bonus = 5;
static int java_memory_bonus = 512;
static char java_xms[BUFFER_SIZE/10];
static char java_xmx[BUFFER_SIZE/10];
static int sim_enable = 0;//是否启用相似度查重
static int oi_mode = 0;//编译模式 ,在update_solution中用到了
static int full_diff = 0;
static int use_max_time = 0;//设置的最大运行时间
static int time_limit_to_total= 0;
static int total_time= 0;

static int http_judge = 0;//core与web链接方式，默认，轮询数据库
static int copy_data= 0;
static char http_baseurl[BUFFER_SIZE/10];
static char http_username[BUFFER_SIZE/10];//网络用户名？
static char http_password[BUFFER_SIZE/10];
static int http_download = 1;
static double cpu_compensation = 1.0;

static int shm_run = 0;

static char record_call = 0;
static int use_ptrace = 1;
static int compile_chroot = 0;
static int turbo_mode = 0;
static int python_free=0;
static const char *tbname = "solution";
int num_of_test = 0;
//static int sleep_tmp;

static int py2=1; // caution: py2=1 means default using py3

#define ZOJ_COM

#ifdef _mysql_h
MYSQL *conn;//数据库链接，开始初始化，最终释放资源
#endif
static char jresult[14][4]={"PD","PR","CI","RJ","AC","PE","WA","TLE","MLE","OLE","RE","CE","CO","TR"};
static char lang_ext[21][8] = {"c", "cc", "pas", "java", "rb", "sh", "py",
			       "php", "pl", "cs", "m", "bas", "scm", "c", "cc", "lua", "js", "go","sql","f95","m"};
//static char buf[BUFFER_SIZE];

int lockfile(int fd) {
	struct flock fl;
	fl.l_type = F_WRLCK;
	fl.l_start = 0;
	fl.l_whence = SEEK_SET;
	fl.l_len = 0;
	return (fcntl(fd, F_SETLK, &fl));
}

int already_running() {
	int fd;
	char buf[16];
	fd = open(lock_file, O_RDWR | O_CREAT, LOCKMODE);
	if (fd < 0) {
		if(DEBUG)printf("%s open fail.\n",lock_file);
		exit(1);
	}
	if (lockfile(fd) < 0) {
		if (errno == EACCES || errno == EAGAIN) {
			close(fd);
			return 1;
		}
		
		if(DEBUG)printf("%s lock fail.\n",lock_file);
		exit(1);
	}
	ftruncate(fd, 0);
	sprintf(buf, "%d", getpid());
	write(fd, buf, strlen(buf) + 1);
	return (0);
}
void print_arm_regs(long long unsigned int *d){
	for(int i=0;i<32;i++){
		printf("[%d]:%lld ",i,d[i]%CALL_ARRAY_SIZE);
	}
	printf("\n");
}
int data_list_has(char *file)
{
	for (int i = 0; i < data_list_len; i++)
	{
		if (strcmp(data_list[i], file) == 0)
			return 1;
	}
	return 0;
}
int data_list_add(char *file)
{
	if (data_list_len < BUFFER_SIZE - 1)
	{
		strcpy(data_list[data_list_len], file);
		data_list_len++;
		return 0;
	}
	else
	{
		return 1;
	}
}
long get_file_size(const char *filename)
{
	struct stat f_stat;

	if (stat(filename, &f_stat) == -1)
	{
		return 0;
	}

	return (long)f_stat.st_size;
}

void write_log(const char *_fmt, ...)
{
	va_list ap;
	char fmt[4096];
	strncpy(fmt, _fmt, 4096);
	char buffer[4096];
	//      time_t          t = time(NULL);
	//int l;
	sprintf(buffer, "%s/log/client.log", oj_home);
	FILE *fp = fopen(buffer, "ae+");
	if (fp == NULL)
	{
		fprintf(stderr, "openfile error!\n");
		system("pwd");
	}
	va_start(ap, _fmt);
	//l =
	vsprintf(buffer, fmt, ap);
	fprintf(fp, "%s\n", buffer);
	if (DEBUG)
		printf("%s\n", buffer);
	va_end(ap);
	fclose(fp);
}
int execute_cmd(const char *fmt, ...)
{
	char cmd[BUFFER_SIZE];

	int ret = 0;
	va_list ap;

	va_start(ap, fmt);
	vsprintf(cmd, fmt, ap);
	if (DEBUG)
		printf("%s\n", cmd);
	ret = system(cmd);
	va_end(ap);
	return ret;
}

const int call_array_size = CALL_ARRAY_SIZE;
unsigned int call_id = 0;
int call_counter[call_array_size] = {0};
static char LANG_NAME[BUFFER_SIZE];
void init_syscalls_limits(int lang)
{
	int i;
	memset(call_counter, 0, sizeof(call_counter));
	if (DEBUG)
		write_log("init_call_counter:%d", lang);
	if (record_call)
	{ // recording for debuging
		for (i = 0; i < call_array_size; i++)
		{
			call_counter[i] = 0;
		}
	}
	else if (lang <= 1 || lang == 13 || lang == 14)
	{ // C & C++
		for (i = 0; i == 0 || LANG_CV[i]; i++)
		{
			call_counter[LANG_CV[i]] = HOJ_MAX_LIMIT;
		}
	}
	else if (lang == 2)
	{ // Pascal
		for (i = 0; i == 0 || LANG_PV[i]; i++)
			call_counter[LANG_PV[i]] = HOJ_MAX_LIMIT;
	}
	else if (lang == 3)
	{ // Java
		for (i = 0; i == 0 || LANG_JV[i]; i++)
			call_counter[LANG_JV[i]] = HOJ_MAX_LIMIT;
	}
	else if (lang == 4)
	{ // Ruby
		for (i = 0; i == 0 || LANG_RV[i]; i++)
			call_counter[LANG_RV[i]] = HOJ_MAX_LIMIT;
	}
	else if (lang == 5)
	{ // Bash
		for (i = 0; i == 0 || LANG_BV[i]; i++)
			call_counter[LANG_BV[i]] = HOJ_MAX_LIMIT;
	}
	else if (lang == 6)
	{ // Python
		for (i = 0; i == 0 || LANG_YV[i]; i++)
			call_counter[LANG_YV[i]] = HOJ_MAX_LIMIT;
	}
	else if (lang == 7)
	{ // php
		for (i = 0; i == 0 || LANG_PHV[i]; i++)
			call_counter[LANG_PHV[i]] = HOJ_MAX_LIMIT;
	}
	else if (lang == 8)
	{ // perl
		for (i = 0; i == 0 || LANG_PLV[i]; i++)
			call_counter[LANG_PLV[i]] = HOJ_MAX_LIMIT;
	}
	else if (lang == 9)
	{ // mono c#
		for (i = 0; i == 0 || LANG_CSV[i]; i++)
			call_counter[LANG_CSV[i]] = HOJ_MAX_LIMIT;
	}
	else if (lang == 10)
	{ //objective c
		for (i = 0; i == 0 || LANG_OV[i]; i++)
			call_counter[LANG_OV[i]] = HOJ_MAX_LIMIT;
	}
	else if (lang == 11)
	{ //free basic
		for (i = 0; i == 0 || LANG_BASICV[i]; i++)
			call_counter[LANG_BASICV[i]] = HOJ_MAX_LIMIT;
	}
	else if (lang == 12)
	{ //scheme guile
		for (i = 0; i == 0 || LANG_SV[i]; i++)
			call_counter[LANG_SV[i]] = HOJ_MAX_LIMIT;
	}
	else if (lang == 15)
	{ //lua
		for (i = 0; i == 0 || LANG_LUAV[i]; i++)
			call_counter[LANG_LUAV[i]] = HOJ_MAX_LIMIT;
	}
	else if (lang == 16)
	{ //nodejs
		for (i = 0; i == 0 || LANG_JSV[i]; i++)
			call_counter[LANG_JSV[i]] = HOJ_MAX_LIMIT;
	}
	else if (lang == 17)
	{ //go
		for (i = 0; i == 0 || LANG_GOV[i]; i++)
			call_counter[LANG_GOV[i]] = HOJ_MAX_LIMIT;
	}
	else if (lang == 18)
	{ //go
		for (i = 0; i == 0 || LANG_SQLV[i]; i++)
			call_counter[LANG_SQLV[i]] = HOJ_MAX_LIMIT;
	}
	else if (lang == 19)
	{ //go
		for (i = 0; i == 0 || LANG_FV[i]; i++)
			call_counter[LANG_FV[i]] = HOJ_MAX_LIMIT;
	}
	else if (lang == 20 )
	{ //go
		for (i = 0; i == 0 || LANG_MV[i]; i++)
			call_counter[LANG_MV[i]] = HOJ_MAX_LIMIT;
	}
#ifdef __aarch64__
	if (lang==3)call_counter[220]= 100;
	else call_counter[220]= 1;
#else
	call_counter[SYS_execve %  call_array_size ]= 1;
#endif
	printf("SYS_execve:%d\n",SYS_execve  % call_array_size );
}

int after_equal(char *c)
{
	int i = 0;
	for (; c[i] != '\0' && c[i] != '='; i++)
		;
	return ++i;
}
void trim(char *c)
{
	char buf[BUFFER_SIZE];
	char *start, *end;
	strcpy(buf, c);
	start = buf;
	while (isspace(*start))
		start++;
	end = start;
	while (!isspace(*end))
		end++;
	*end = '\0';
	strcpy(c, start);
}
bool read_buf(char *buf, const char *key, char *value)
{
	if (strncmp(buf, key, strlen(key)) == 0)
	{
		strcpy(value, buf + after_equal(buf));
		trim(value);
		if (DEBUG)
			printf("%s=%s\n", key, value);
		return 1;
	}
	return 0;
}
void read_double(char *buf, const char *key, double *value)
{
	char buf2[BUFFER_SIZE];
	if (read_buf(buf, key, buf2))
		sscanf(buf2, "%lf", value);
}

void read_int(char *buf, const char *key, int *value)
{
	char buf2[BUFFER_SIZE];
	if (read_buf(buf, key, buf2))
		sscanf(buf2, "%d", value);
}

FILE *read_cmd_output(const char *fmt, ...)
{
	char cmd[BUFFER_SIZE];

	FILE *ret = NULL;
	va_list ap;

	va_start(ap, fmt);
	vsprintf(cmd, fmt, ap);
	va_end(ap);
	if (DEBUG)
		printf("%s\n", cmd);
	ret = popen(cmd, "r");

	return ret;
}
// read the configue file
void init_mysql_conf()
{
	FILE *fp = NULL;
	char buf[BUFFER_SIZE];
	host_name[0] = 0;
	user_name[0] = 0;
	password[0] = 0;
	db_name[0] = 0;
	port_number = 3306;
	max_running = 3;
	sleep_time = 3;
	strcpy(java_xms, "-Xms32m");
	strcpy(java_xmx, "-Xmx256m");
	sprintf(buf, "%s/etc/judge.conf", oj_home);
	fp = fopen("./etc/judge.conf", "re");
	if (fp != NULL)
	{
		while (fgets(buf, BUFFER_SIZE - 1, fp))
		{
			read_buf(buf, "OJ_HOST_NAME", host_name);
			read_buf(buf, "OJ_USER_NAME", user_name);
			read_buf(buf, "OJ_PASSWORD", password);
			read_buf(buf, "OJ_DB_NAME", db_name);
			read_int(buf, "OJ_PORT_NUMBER", &port_number);
			read_int(buf, "OJ_JAVA_TIME_BONUS", &java_time_bonus);
			read_int(buf, "OJ_JAVA_MEMORY_BONUS", &java_memory_bonus);
			read_int(buf, "OJ_SIM_ENABLE", &sim_enable);
			read_buf(buf, "OJ_JAVA_XMS", java_xms);
			read_buf(buf, "OJ_JAVA_XMX", java_xmx);
			read_int(buf, "OJ_HTTP_JUDGE", &http_judge);
			read_buf(buf, "OJ_HTTP_BASEURL", http_baseurl);
			read_buf(buf, "OJ_HTTP_USERNAME", http_username);
			read_buf(buf, "OJ_HTTP_PASSWORD", http_password);
			read_int(buf, "OJ_HTTP_DOWNLOAD", &http_download);
			read_int(buf, "OJ_OI_MODE", &oi_mode);
			read_int(buf, "OJ_FULL_DIFF", &full_diff);
			read_int(buf, "OJ_SHM_RUN", &shm_run);
			read_int(buf, "OJ_USE_MAX_TIME", &use_max_time);
			read_int(buf, "OJ_TIME_LIMIT_TO_TOTAL", &time_limit_to_total);
			read_int(buf, "OJ_USE_PTRACE", &use_ptrace);
			//read_int(buf, "OJ_COMPILE_CHROOT", &compile_chroot);
			read_int(buf, "OJ_TURBO_MODE", &turbo_mode);
			read_double(buf, "OJ_CPU_COMPENSATION", &cpu_compensation);
			read_int(buf, "OJ_PYTHON_FREE", &python_free);
			read_int(buf, "OJ_COPY_DATA", &copy_data);
			
			
		}
		fclose(fp);
	}
//	fclose(fp);
	
 	if(strcmp(http_username,"IP")==0){
                  FILE * fjobs = read_cmd_output("ifconfig|grep 'inet'|awk -F: '{printf $2}'|awk  '{printf $1}'");
                  fscanf(fjobs, "%s", http_username);
                  pclose(fjobs);
        }
	if(turbo_mode==2) tbname="solution2";
}

//功能：判断是否是输入文件
//输入：/home/judge/data/1000下的文件全名 sample.in sample.out test.in test.out
//输出：如果文件长度<=3或者不是以.in结尾，则返回0；
//否则返回文件主名长度sample 6 test 4
int isInFile(const char fname[])
{
	int l = strlen(fname);
	if (l <= 3 || strcmp(fname + l - 3, ".in") != 0)
		return 0;
	else
		return l - 3;//返回文件名长度 sample 6 test 4
}
int inFile(const struct dirent * dp){
	int l = strlen(dp->d_name);
	if(DEBUG) printf("file name:%s\n",dp->d_name);
	if(DEBUG) printf("ext name:%s\n",dp->d_name + l - 3);
	int ret = isInFile(dp->d_name);	
	if(DEBUG) printf("\t:%d\n",ret);
	return ret;
}

void find_next_nonspace(int &c1, int &c2, FILE *&f1, FILE *&f2, int &ret)
{
	// Find the next non-space character or \n.
	while ((isspace(c1)) || (isspace(c2)))
	{
		if (c1 != c2)
		{
			if (c2 == EOF)
			{
				do
				{
					c1 = fgetc(f1);
				} while (isspace(c1));
				continue;
			}
			else if (c1 == EOF)
			{
				do
				{
					c2 = fgetc(f2);
				} while (isspace(c2));
				continue;
#ifdef IGNORE_ESOL
			}
			else if (isspace(c1) && isspace(c2))
			{
				while (c2 == '\n' && isspace(c1) && c1 != '\n')
					c1 = fgetc(f1);
				while (c1 == '\n' && isspace(c2) && c2 != '\n')
					c2 = fgetc(f2);

#else
			}
			else if ((c1 == '\r' && c2 == '\n'))
			{
				c1 = fgetc(f1);
			}
			else if ((c2 == '\r' && c1 == '\n'))
			{
				c2 = fgetc(f2);
#endif
			}
			else
			{
				if (DEBUG)
					printf("%d=%c\t%d=%c", c1, c1, c2, c2);
				;
				ret = OJ_PE;
			}
		}
		if (isspace(c1))
		{
			c1 = fgetc(f1);
		}
		if (isspace(c2))
		{
			c2 = fgetc(f2);
		}
	}
}

/***
 int compare_diff(const char *file1,const char *file2){
 char diff[1024];
 sprintf(diff,"diff -q -B -b -w --strip-trailing-cr %s %s",file1,file2);
 int d=system(diff);
 if (d) return OJ_WA;
 sprintf(diff,"diff -q -B --strip-trailing-cr %s %s",file1,file2);
 int p=system(diff);
 if (p) return OJ_PE;
 else return OJ_AC;

 }
 */
const char *getFileNameFromPath(const char *path)
{
	for (int i = strlen(path); i >= 0; i--)
	{
		if (path[i] == '/')
			return &path[i + 1];
	}
	return path;
}

void make_diff_out_full(FILE *f1, FILE *f2, int c1, int c2, const char *path,const char * infile)
{

	execute_cmd("echo '========[%s]========='>>diff.out", getFileNameFromPath(path));
	execute_cmd("echo '------test in top 100 lines------'>>diff.out");
	execute_cmd("head -100 %s >>diff.out",infile);
	execute_cmd("echo '------test out top 100 lines-----'>>diff.out");
	execute_cmd("head -100 '%s'>>diff.out", path);
	execute_cmd("echo '------user out top 100 lines-----'>>diff.out");
	execute_cmd("head -100 user.out>>diff.out");
	execute_cmd("echo '------diff out 200 lines-----'>>diff.out");
	execute_cmd("diff '%s' user.out -y|head -200>>diff.out", path);
	execute_cmd("echo '=============================='>>diff.out");
}
void make_diff_out_simple(FILE *f1, FILE *f2, int c1, int c2, const char *path)
{
	execute_cmd("echo '========[%s]========='>>diff.out", getFileNameFromPath(path));
	execute_cmd("echo 'Expected						      |	Yours'>>diff.out");
	execute_cmd("diff '%s' user.out -y|head -100>>diff.out", path);
	execute_cmd("echo '\n=============================='>>diff.out");
}

/*
 * translated from ZOJ judger r367
 * http://code.google.com/p/zoj/source/browse/trunk/judge_client/client/text_checker.cc#25
 *
 */
int compare_zoj(const char *file1, const char *file2,const char * infile)
{
	int ret = OJ_AC;
	int c1, c2;
	FILE *f1, *f2;
	f1 = fopen(file1, "re");
	f2 = fopen(file2, "re");
	if (!f1 || !f2)
	{
		ret = OJ_RE;
	}
	else
		for (;;)
		{
			// Find the first non-space character at the beginning of line.
			// Blank lines are skipped.
			c1 = fgetc(f1);
			c2 = fgetc(f2);
			find_next_nonspace(c1, c2, f1, f2, ret);
			// Compare the current line.
			for (;;)
			{
				// Read until 2 files return a space or 0 together.
				while ((!isspace(c1) && c1) || (!isspace(c2) && c2))
				{
					if (c1 == EOF && c2 == EOF)
					{
						goto end;
					}
					if (c1 == EOF || c2 == EOF)
					{
						break;
					}
					if (c1 != c2) {
						// Consecutive non-space characters should be all exactly the ifconfig|grep 'inet'|awk -F: '{printf $2}'|awk  '{printf $1}'same
						ret = OJ_WA;
						goto end;
					}
					c1 = fgetc(f1);
					c2 = fgetc(f2);
				}
				find_next_nonspace(c1, c2, f1, f2, ret);
				if (c1 == EOF && c2 == EOF)
				{
					goto end;
				}
				if (c1 == EOF || c2 == EOF)
				{
					ret = OJ_WA;
					goto end;
				}

				if ((c1 == '\n' || !c1) && (c2 == '\n' || !c2))
				{
					break;
				}
			}
		}
end:
	if (ret == OJ_WA || ret == OJ_PE)
	{
		if (full_diff)
			make_diff_out_full(f1, f2, c1, c2, file1,infile);
		else
			make_diff_out_simple(f1, f2, c1, c2, file1);
	}
	if (f1)
		fclose(f1);
	if (f2)
		fclose(f2);
	return ret;
}

void delnextline(char s[])
{
	int L;
	L = strlen(s);
	while (L > 0 && (s[L - 1] == '\n' || s[L - 1] == '\r'))
		s[--L] = 0;
}

int compare(const char *file1, const char *file2, const char * infile)
{
#ifdef ZOJ_COM
	//compare ported and improved from zoj don't limit file size
	return compare_zoj(file1, file2,infile);
#endif
#ifndef ZOJ_COM
	//the original compare from the first version of goj has file size limit
	//and waste memory
	FILE *f1, *f2;
	char *s1, *s2, *p1, *p2;
	int PEflg;
	s1 = new char[STD_F_LIM + 512];
	s2 = new char[STD_F_LIM + 512];
	if (!(f1 = fopen(file1, "re")))
		return OJ_AC;
	for (p1 = s1; EOF != fscanf(f1, "%s", p1);)
		while (*p1)
			p1++;
	fclose(f1);
	if (!(f2 = fopen(file2, "re")))
		return OJ_RE;
	for (p2 = s2; EOF != fscanf(f2, "%s", p2);)
		while (*p2)
			p2++;
	fclose(f2);
	if (strcmp(s1, s2) != 0)
	{
		//              printf("A:%s\nB:%s\n",s1,s2);
		delete[] s1;
		delete[] s2;

		return OJ_WA;
	}
	else
	{
		f1 = fopen(file1, "re");
		f2 = fopen(file2, "re");
		PEflg = 0;
		while (PEflg == 0 && fgets(s1, STD_F_LIM, f1) && fgets(s2, STD_F_LIM, f2))
		{
			delnextline(s1);
			delnextline(s2);
			if (strcmp(s1, s2) == 0)
				continue;
			else
				PEflg = 1;
		}
		delete[] s1;
		delete[] s2;
		fclose(f1);
		fclose(f2);
		if (PEflg)
			return OJ_PE;
		else
			return OJ_AC;
	}
#endif
}

bool check_login()
{
	const char *cmd =
		" wget --post-data=\"checklogin=1\" --load-cookies=cookie --save-cookies=cookie --keep-session-cookies -q -O - \"%s/admin/problem_judge.php\"";
	int ret = 0;
	FILE *fjobs = read_cmd_output(cmd, http_baseurl);
	fscanf(fjobs, "%d", &ret);
	pclose(fjobs);

	//return ret;
	return true;
}
void login()
{
	if (!check_login())
	{
		const char *cmd =
			"wget --post-data=\"user_id=%s&password=%s\" --load-cookies=cookie --save-cookies=cookie --keep-session-cookies -q -O - \"%s/login.php\"";
		FILE *fjobs = read_cmd_output(cmd, http_username, http_password,
									  http_baseurl);
		//fscanf(fjobs,"%d",&ret);
		pclose(fjobs);
	}
}
#ifdef _mysql_h
/* write result back to database */
void _update_solution_mysql(int solution_id, int result, int time, int memory,
							int sim, int sim_s_id, double pass_rate)
{
	char sql[BUFFER_SIZE];
	char judger[BUFFER_SIZE/10];
	mysql_real_escape_string(conn, judger, http_username, strlen(http_username));

	if (oi_mode) {
		sprintf(sql,
				"UPDATE %s SET result=%d,time=%d,memory=%d,pass_rate=%f,judger='%s',judgetime=now() WHERE solution_id=%d ",
					tbname,	    result, time,   memory,   pass_rate,  judger, solution_id);
	} else {
		sprintf(sql,
				"UPDATE %s SET result=%d,time=%d,memory=%d,judger='%s',judgetime=now() WHERE solution_id=%d ",
					tbname,     result, time, memory,judger, solution_id);
	}
	//      printf("sql= %s\n",sql);
	if (mysql_real_query(conn, sql, strlen(sql)))
	{
		//              printf("..update failed! %s\n",mysql_error(conn));
	}
	if (sim)
	{
		sprintf(sql,
				"insert into sim(s_id,sim_s_id,sim) values(%d,%d,%d) on duplicate key update  sim_s_id=%d,sim=%d",
				solution_id, sim_s_id, sim, sim_s_id, sim);
		//      printf("sql= %s\n",sql);
		if (mysql_real_query(conn, sql, strlen(sql)))
		{
			//              printf("..update failed! %s\n",mysql_error(conn));
		}
	}
}
#endif
void _update_solution_http(int solution_id, int result, int time, int memory,
						   int sim, int sim_s_id, double pass_rate)
{
	const char *cmd =
		" wget --post-data=\"update_solution=1&sim_id=%d&result=%d&time=%d&memory=%d&sim=%d&simid=%d&pass_rate=%f\" --load-cookies=cookie --save-cookies=cookie --keep-session-cookies -q -O - \"%s/admin/problem_judge.php\"";
	FILE *fjobs = read_cmd_output(cmd, solution_id, result, time, memory, sim,
								  sim_s_id, pass_rate, http_baseurl);
	//fscanf(fjobs,"%d",&ret);
	pclose(fjobs);
}
void update_solution(int solution_id, int result, int time, int memory, int sim,
					 int sim_s_id, double pass_rate)
{
	if (result == OJ_TL && memory == 0)
		result = OJ_ML;
	if (http_judge)
	{
		_update_solution_http(solution_id, result, time, memory, sim, sim_s_id,
							  pass_rate);
	}
	else
	{

#ifdef _mysql_h
		_update_solution_mysql(solution_id, result, time, memory, sim, sim_s_id,
							   pass_rate);
#endif
	}
}
/* write compile error message back to database */
#ifdef _mysql_h
void _addceinfo_mysql(int solution_id)
{
	char sql[(1 << 16)], *end;
	char ceinfo[(1 << 16)], *cend;
	FILE *fp = fopen("ce.txt", "re");
	snprintf(sql, (1 << 16) - 1, "DELETE FROM compileinfo WHERE solution_id=%d",
			 solution_id);
	mysql_real_query(conn, sql, strlen(sql));
	cend = ceinfo;
	while (fgets(cend, 1024, fp))
	{
		cend += strlen(cend);
		if (cend - ceinfo > 40000)
			break;
	}
	*cend = '\0';
	end = sql;
	strcpy(end, "INSERT INTO compileinfo VALUES(");
	end += strlen(sql);
	*end++ = '\'';
	end += sprintf(end, "%d", solution_id);
	*end++ = '\'';
	*end++ = ',';
	*end++ = '\'';
	end += mysql_real_escape_string(conn, end, ceinfo, strlen(ceinfo));
	*end++ = '\'';
	*end++ = ')';
	*end = 0;
	//      printf("%s\n",ceinfo);
	if (mysql_real_query(conn, sql, end - sql))
		printf("%s\n", mysql_error(conn));
	fclose(fp);
}
#endif
// urlencoded function copied from http://www.geekhideout.com/urlcode.shtml
/* Converts a hex character to its integer value */
char from_hex(char ch)
{
	return isdigit(ch) ? ch - '0' : tolower(ch) - 'a' + 10;
}

/* Converts an integer value to its hex character*/
char to_hex(char code)
{
	static char hex[] = "0123456789abcdef";
	return hex[code & 15];
}

/* Returns a url-encoded version of str */
/* IMPORTANT: be sure to free() the returned string after use */
char *url_encode(char *str)
{
	char *pstr = str, *buf = (char *)malloc(strlen(str) * 3 + 1), *pbuf = buf;
	while (*pstr)
	{
		if (isalnum(*pstr) || *pstr == '-' || *pstr == '_' || *pstr == '.' || *pstr == '~')
			*pbuf++ = *pstr;
		else if (*pstr == ' ')
			*pbuf++ = '+';
		else
			*pbuf++ = '%', *pbuf++ = to_hex(*pstr >> 4), *pbuf++ = to_hex(*pstr & 15);
		pstr++;
	}
	*pbuf = '\0';
	return buf;
}

void _addceinfo_http(int solution_id)
{

	char ceinfo[(1 << 16)], *cend;
	char *ceinfo_encode;
	FILE *fp = fopen("ce.txt", "re");

	cend = ceinfo;
	while (fgets(cend, 1024, fp))
	{
		cend += strlen(cend);
		if (cend - ceinfo > 40000)
			break;
	}
	*cend='\0';
	fclose(fp);
	ceinfo_encode = url_encode(ceinfo);
	FILE *ce = fopen("ce.post", "we");
	fprintf(ce, "addceinfo=1&sim_id=%d&ceinfo=%s", solution_id, ceinfo_encode);
	fclose(ce);
	free(ceinfo_encode);

	const char *cmd =
		" wget --post-file=\"ce.post\" --load-cookies=cookie --save-cookies=cookie --keep-session-cookies -q -O - \"%s/admin/problem_judge.php\"";
	FILE *fjobs = read_cmd_output(cmd, http_baseurl);
	//fscanf(fjobs,"%d",&ret);
	pclose(fjobs);
}
void addceinfo(int solution_id)
{
	if (http_judge)
	{
		_addceinfo_http(solution_id);
	}
	else
	{

#ifdef _mysql_h
		_addceinfo_mysql(solution_id);
#endif
	}
}
/* write runtime error message back to database */
#ifdef _mysql_h
void _addreinfo_mysql(int solution_id, const char *filename)
{
	char sql[(1 << 16)], *end;
	char reinfo[(1 << 16)], *rend;
	FILE *fp = fopen(filename, "re");
	snprintf(sql, (1 << 16) - 1, "DELETE FROM runtimeinfo WHERE solution_id=%d",
			 solution_id);
	mysql_real_query(conn, sql, strlen(sql));
	rend = reinfo;
	while (fgets(rend, 1024, fp))
	{
		rend += strlen(rend);
		if (rend - reinfo > 40000)
			break;
	}
	*rend = '\0';
	end = sql;
	strcpy(end, "INSERT INTO runtimeinfo VALUES(");
	end += strlen(sql);
	*end++ = '\'';
	end += sprintf(end, "%d", solution_id);
	*end++ = '\'';
	*end++ = ',';
	*end++ = '\'';
	end += mysql_real_escape_string(conn, end, reinfo, strlen(reinfo));
	*end++ = '\'';
	*end++ = ')';
	*end = 0;
	//      printf("%s\n",ceinfo);
	if (mysql_real_query(conn, sql, end - sql))
		printf("%s\n", mysql_error(conn));
	fclose(fp);
}
#endif
void _addreinfo_http(int solution_id, const char *filename)
{

	char reinfo[(1 << 16)], *rend;
	char *reinfo_encode;
	FILE *fp = fopen(filename, "re");

	rend = reinfo;
	while (fgets(rend, 1024, fp))
	{
		rend += strlen(rend);
		if (rend - reinfo > 40000)
			break;
	}
	*rend = '\0';
	fclose(fp);
	reinfo_encode = url_encode(reinfo);
	FILE *re = fopen("re.post", "we");
	fprintf(re, "addreinfo=1&sim_id=%d&reinfo=%s", solution_id, reinfo_encode);
	fclose(re);
	free(reinfo_encode);

	const char *cmd =
		" wget --post-file=\"re.post\" --load-cookies=cookie --save-cookies=cookie --keep-session-cookies -q -O - \"%s/admin/problem_judge.php\"";
	FILE *fjobs = read_cmd_output(cmd, http_baseurl);
	//fscanf(fjobs,"%d",&ret);
	pclose(fjobs);
}
void addreinfo(int solution_id)
{
	if (http_judge)
	{
		_addreinfo_http(solution_id, "error.out");
	}
	else
	{
#ifdef _mysql_h
		_addreinfo_mysql(solution_id, "error.out");
#endif
	}
}

void adddiffinfo(int solution_id)
{

	if (http_judge)
	{
		_addreinfo_http(solution_id, "diff.out");
	}
	else
	{
#ifdef _mysql_h
		_addreinfo_mysql(solution_id, "diff.out");
#endif
	}
}
void addcustomout(int solution_id)
{

	if (http_judge)
	{
		_addreinfo_http(solution_id, "user.out");
	}
	else
	{
#ifdef _mysql_h
		_addreinfo_mysql(solution_id, "user.out");
#endif
	}
}
#ifdef _mysql_h

void _update_user_mysql(int & user_id)
{
	char sql[BUFFER_SIZE];
	sprintf(sql,
			"UPDATE `user` SET `solved`=(SELECT count(DISTINCT `problem_id`) FROM `solution` WHERE `user_id`=\'%d\' AND `result`=4) WHERE `user_id`=\'%d\'",
			user_id, user_id);
	if (mysql_real_query(conn, sql, strlen(sql)))
		write_log(mysql_error(conn));
	sprintf(sql,
			"UPDATE `user` SET `submit`=(SELECT count(*) FROM `solution` WHERE `user_id`=\'%d\' and problem_id>0) WHERE `user_id`=\'%d\'",
			user_id, user_id);
	if (mysql_real_query(conn, sql, strlen(sql)))
		write_log(mysql_error(conn));
}
#endif
void _update_user_http(int & user_id)
{

	const char *cmd =
		" wget --post-data=\"updateuser=1&user_id=%d\" --load-cookies=cookie --save-cookies=cookie --keep-session-cookies -q -O - \"%s/admin/problem_judge.php\"";
	FILE *fjobs = read_cmd_output(cmd, user_id, http_baseurl);
	//fscanf(fjobs,"%d",&ret);
	pclose(fjobs);
}
void update_user(int & user_id)
{
	if (http_judge)
	{
		_update_user_http(user_id);
	}
	else
	{

#ifdef _mysql_h
		_update_user_mysql(user_id);
#endif
	}
}

void _update_problem_http(int pid,int cid) {
	const char * cmd =
			" wget --post-data=\"updateproblem=1&pid=%d\" --load-cookies=cookie --save-cookies=cookie --keep-session-cookies -q -O - \"%s/admin/problem_judge.php\"";
	FILE * fjobs = read_cmd_output(cmd, pid, http_baseurl);
	//fscanf(fjobs,"%d",&ret);
	pclose(fjobs);
}

#ifdef _mysql_h
void _update_problem_mysql(int p_id,int cid) {
	char sql[BUFFER_SIZE];
	if(cid>0){
		sprintf(sql,
			"UPDATE `contest_problem` SET `contest_accepted`=(SELECT count(*) FROM `solution` WHERE `problem_id`=%d AND `result`=4 and contest_id=%d) WHERE `problem_id`=%d and contest_id=%d",
			p_id,cid, p_id,cid);
		printf("sql:[%s]\n",sql);
		if (mysql_real_query(conn, sql, strlen(sql)))
			write_log(mysql_error(conn));

	}

		sprintf(sql,
			"UPDATE `problem` SET `accepted`=(SELECT count(*) FROM `solution` WHERE `problem_id`=%d AND `result`=4) WHERE `problem_id`=%d",
			p_id, p_id);
		printf("sql:[%s]\n",sql);
	if (mysql_real_query(conn, sql, strlen(sql)))
		write_log(mysql_error(conn));
	if(cid>0){
		sprintf(sql,
			"UPDATE `contest_problem` SET `contest_submit`=(SELECT count(*) FROM `solution` WHERE `problem_id`=%d AND  contest_id=%d) WHERE `problem_id`=%d and contest_id=%d",
			p_id,cid, p_id,cid);
		if (mysql_real_query(conn, sql, strlen(sql)))
			write_log(mysql_error(conn));
	}
	/*	sprintf(sql,
			"UPDATE `problem` SET `submit`=(SELECT count(*) FROM `solution` WHERE `problem_id`=%d) WHERE `problem_id`=%d",
			p_id, p_id);


	if (mysql_real_query(conn, sql, strlen(sql)))
		write_log(mysql_error(conn));
	*/
}
#endif
void update_problem(int pid,int cid) {
	if (http_judge) {
		_update_problem_http(pid,cid);
	} else {
#ifdef _mysql_h
		_update_problem_mysql(pid,cid);
#endif
	}
}
void umount(char *work_dir)
{
	chdir(work_dir);
	execute_cmd("/bin/umount -l %s/usr 2>/dev/null", work_dir);
	if(strlen(work_dir)>0){
		execute_cmd("/bin/umount -l %s/proc 2>/dev/null", work_dir);
	}
	execute_cmd("/bin/umount -l %s/dev 2>/dev/null", work_dir);
	execute_cmd("/bin/umount -l %s/usr 2>/dev/null", work_dir);
	chdir(work_dir);
	execute_cmd("/bin/umount -l usr dev");
	execute_cmd("/bin/rmdir %s/* ", work_dir);
	execute_cmd("/bin/rmdir %s/log/* ", work_dir);
}

//核心源码之一，编译程序
//输入：程序语言类型编码lang
//返回值：编译成功返回0；失败返回ce.txt文件大小
int compile(int lang, char *work_dir)
{
	if( lang == 6 || lang == 16 ) return 0; // python / js don't compile
	int pid;

	const char *CP_C[] = {"gcc", "Main.c", "-o", "Main", "-O2", "-fmax-errors=10", "-Wall",
						  "-lm", "--static", "-std=c99", "-DONLINE_JUDGE", NULL};
	const char *CP_X[] = {"g++", "-fno-asm", "-fmax-errors=10", "-Wall",
						  "-lm", "--static", "-std=c++11", "-DONLINE_JUDGE", "-o", "Main", "Main.cc", NULL};
	const char *CP_P[] =
		{"fpc", "Main.pas", "-Cs32000000", "-Sh", "-O2", "-Co", "-Ct", "-Ci", NULL};
	//      const char * CP_J[] = { "javac", "-J-Xms32m", "-J-Xmx256m","-encoding","UTF-8", "Main.java",NULL };

	const char *CP_R[] = {"ruby", "-c", "Main.rb", NULL};
	const char *CP_B[] = {"chmod", "+rx", "Main.sh", NULL};
	//const char * CP_Y[] = { "python", "-c",
	//		"import py_compile; py_compile.compile(r'Main.py')", NULL };
	const char *CP_PH[] = {"php", "-l", "Main.php", NULL};
	const char *CP_PL[] = {"perl", "-c", "Main.pl", NULL};
	const char *CP_CS[] = {"mcs","-codepage:utf8", "-warn:0", "Main.cs", NULL};
	const char *CP_OC[] = {"gcc", "-o", "Main", "Main.m",
						   "-fconstant-string-class=NSConstantString", "-I",
						   "/usr/include/GNUstep/", "-L", "/usr/lib/GNUstep/Libraries/",
						   "-lobjc", "-lgnustep-base", NULL};
	const char *CP_BS[] = {"fbc", "-lang", "qb", "Main.bas", NULL};
	const char *CP_CLANG[] = {"clang", "Main.c", "-o", "Main", "-ferror-limit=10", "-fno-asm", "-Wall",
							  "-lm", "--static", "-std=c99", "-DONLINE_JUDGE", NULL};
	const char *CP_CLANG_CPP[] = {"clang++", "Main.cc", "-o", "Main", "-ferror-limit=10", "-fno-asm", "-Wall",
								  "-lm", "--static", "-std=c++0x", "-DONLINE_JUDGE", NULL};
	const char *CP_LUA[] = {"luac", "-o", "Main", "Main.lua", NULL};
	//const char * CP_JS[] = { "js24","-c", "Main.js", NULL };
	const char *CP_GO[] = {"go", "build", "-o", "Main", "Main.go", NULL};
	const char *CP_FORTRAN[] = {"f95", "-static", "-o", "Main", "Main.f95", NULL};

	char * const envp[]={(char * const )"PYTHONIOENCODING=utf-8",
			     (char * const )"USER=judge",
			     (char * const )"GOCACHE=/tmp",
			     (char * const )"LANG=zh_CN.UTF-8",
			     (char * const )"LANGUAGE=zh_CN.UTF-8",
			     (char * const )"LC_ALL=zh_CN.utf-8",NULL};
	char javac_buf[7][32];
	char *CP_J[7];

	for (int i = 0; i < 7; i++)
		CP_J[i] = javac_buf[i];

	sprintf(CP_J[0], "javac");
	sprintf(CP_J[1], "-J%s", java_xms);
	sprintf(CP_J[2], "-J%s", java_xmx);
	sprintf(CP_J[3], "-encoding");
	sprintf(CP_J[4], "UTF-8");
	sprintf(CP_J[5], "Main.java");
	CP_J[6] = (char *)NULL;

    //判题进程中又创建子进程
	pid = fork();
	if (pid == 0)//如果是子进程在运行
	{//设置运行资源限制
		struct rlimit LIM;
		int cpu = 20;
		if (lang == 3)
			cpu = 30;
		LIM.rlim_max = cpu;
		LIM.rlim_cur = cpu;
		setrlimit(RLIMIT_CPU, &LIM);
		alarm(cpu);
		LIM.rlim_max = 100 * STD_MB;
		LIM.rlim_cur = 100 * STD_MB;
		setrlimit(RLIMIT_FSIZE, &LIM);

        //实现重定向，把预定义的标准流文件定向到由path指定的文件中。
        //标准流文件具体是指stdin、stdout和stderr
		if (lang == 3 || lang == 17)
		{
#ifdef __mips__
			LIM.rlim_max = STD_MB << 12;
			LIM.rlim_cur = STD_MB << 12;
#endif
#ifdef __arm__
			LIM.rlim_max = STD_MB << 11;
			LIM.rlim_cur = STD_MB << 11;
#endif
#ifdef __i386__
			LIM.rlim_max = STD_MB << 11;
			LIM.rlim_cur = STD_MB << 11;
#endif
#ifdef __x86_64__
			LIM.rlim_max = STD_MB << 12;
			LIM.rlim_cur = STD_MB << 12;
#endif
		}
		else
		{
			LIM.rlim_max = STD_MB << 11 ;
			LIM.rlim_cur = STD_MB << 11;
		}
		if (lang != 3)
			setrlimit(RLIMIT_AS, &LIM);
		if (lang != 2 && lang != 11)
		{
			freopen("ce.txt", "w", stderr);
			//freopen("/dev/null", "w", stdout);
		}
		else
		{//如果是bas或者pas,那么编译信息输出重定向到ce.txt
			freopen("ce.txt", "w", stdout);
		}

        //将/home/judge/run0下所有文件拥有者改为判题用户judge可能为了安全考虑？？？？？？
        /*可以这样使用 stuid() 函数：
         * 开始时，某个程序需要 root 权限玩成一些工作，但后续的工作不需要 root 权限。
         * 可以将该可执行程序文件设置 set_uid 位，并使得该文件的属主为 root。
         * 这样，普通用户执行这个程序时，进程就具有了 root 权限，当不再需要 root 权限时，
         * 调用 setuid( getuid() ) 恢复进程的实际用户 ID 和有效用户 ID 为执行该程序的普通用户的 ID 。
         * 对于一些提供网络服务的程序，这样做是非常有必要的，否则就可能被攻击者利用，使攻击者控制整个系统。
         * 对于设置了 set_uid 位的可执行程序也要注意，尤其是对那些属主是 root 的更要注意。因为 Linux 系统中
         * root 用户拥有最高权力。黑客们往往喜欢寻找设置了 set_uid 位的可执行程序的漏洞。这样的程序如果存在缓冲区溢出
         * 漏洞，并且该程序是一个网络程序，那么黑客就可以从远程的地方轻松地利用该漏洞获得运行该漏洞程序的主机的 root
         * 权限。即使这样的成不是网络程序，那么也可以使本机上的恶意普通用户提升为 root 权限。
         */
        execute_cmd("/bin/chown judge %s ", work_dir);
		execute_cmd("/bin/chmod 750 %s ", work_dir);

		if (compile_chroot && lang != 3 && lang != 9 && lang != 6 && lang != 11)
		{
			 if (access("usr", 0) == -1){
				execute_cmd("mkdir -p root/.cache/go-build usr etc/alternatives proc tmp dev");
				execute_cmd("chown judge -R root tmp ");
				execute_cmd("mount -o bind /usr usr");
				execute_cmd("mount -o remount,ro usr");
				execute_cmd("ln -s usr/bin bin");
				execute_cmd("ln -s usr/lib lib");
				execute_cmd("ln -s usr/lib32 lib32");
				execute_cmd("ln -s usr/libx32 libx32");
#ifndef __i386__
				execute_cmd("ln -s usr/lib64 lib64");
#endif
				execute_cmd("cp /etc/alternatives/* etc/alternatives");
				execute_cmd("cp /etc/fpc* etc/");
				execute_cmd("mount -o bind /proc proc");
				if (lang > 2 && lang != 6 && lang != 10 && lang != 13 && lang != 14 )
				{
					execute_cmd("mount -o bind /dev dev");
					execute_cmd("mount -o remount,ro dev");
				}
				//execute_cmd("mount -o remount,ro proc");
			}
				chroot(work_dir);
		}
		while (setgid(1536) != 0)
			sleep(1);
		while (setuid(1536) != 0)
			sleep(1);
		while (setresuid(1536, 1536, 1536) != 0)
			sleep(1);

        //执行编译命令，并且输出到ce.txt中
        //默认c:0-c++:1
        /*
         * execvp()会从PATH 环境变量所指的目录中查找符合参数file 的文件名，找到后便执行该文件，
        然后将第二个参数argv传给该欲执行的文件。
        返回值：如果执行成功则函数不会返回，执行失败则直接返回-1，失败原因存于errno中。
        */
		switch (lang)
		{
		case 0:
			execvp(CP_C[0], (char *const *)CP_C);
			break;
		case 1:
			execvp(CP_X[0], (char *const *)CP_X);
			break;
		case 2:
			execvp(CP_P[0], (char *const *)CP_P);
			break;
		case 3:
			execvp(CP_J[0], (char *const *)CP_J);
			break;
		case 4:
			execvp(CP_R[0], (char *const *)CP_R);
			break;
		case 5:
			execvp(CP_B[0], (char *const *)CP_B);
			break;
		//case 6:
		//	execvp(CP_Y[0], (char * const *) CP_Y);
		//	break;
		case 7:
			execvp(CP_PH[0], (char *const *)CP_PH);
			break;
		case 8:
			execvp(CP_PL[0], (char *const *)CP_PL);
			break;
		case 9:
			execvp(CP_CS[0], (char *const *)CP_CS);
			break;

		case 10:
			execvp(CP_OC[0], (char *const *)CP_OC);
			break;
		case 11:
			execvp(CP_BS[0], (char *const *)CP_BS);
			break;
		case 13:
			execvp(CP_CLANG[0], (char *const *)CP_CLANG);
			break;
		case 14:
			execvp(CP_CLANG_CPP[0], (char *const *)CP_CLANG_CPP);
			break;
		case 15:
			execvp(CP_LUA[0], (char *const *)CP_LUA);
			break;
		//case 16:
		//	execvp(CP_JS[0], (char * const *) CP_JS);
		//	break;
		case 17:
			execvpe(CP_GO[0], (char *const *)CP_GO,envp);
			break;
		case 19:
			execvp(CP_FORTRAN[0], (char *const *)CP_FORTRAN);
			break;
		default:
			printf("nothing to do!\n");
		}
        //如果调试，在这里输出编译信息
		if (DEBUG)
			printf("compile end!\n");
		//exit(!system("cat ce.txt"));
        //并终止编译子进程的执行 ，这里提供了两种返回父进程的方式
        //一种是查看ce文件，是否进行分析？？？？
        //另一种是直接exit(0);这里可能默认编译子进程一定成功？？？？？
        //exit(!system("cat ce.txt"));
		exit(0);
	}
	else
	{
        //父进程，等待编译子进程的执行 结束，正常结束带回0，为什么采取这种形式？？？难道是不知道什么时候
        //编译结束？？？？不知道什么时候去读取ce.txt进行解析？？？所以采用父子进程的方式？？？
        //如果子进程编译有语法错误，那么会写入ce.txt，如果ce.txt为0，并且是Exit(0)，代表子进程正常退出，编译成功
		int status = 0;
        //一直等，直到编译子进程结束
		waitpid(pid, &status, 0);
		if (lang > 3 && lang < 7)//"rb", "sh", "py"这三种语言状态特殊？？？？
			status = get_file_size("ce.txt");//那c如果有错误写入ce.txt呢？？？？
		if (DEBUG)
			printf("status=%d\n", status);
		execute_cmd("/bin/umount -l bin usr lib lib64 etc/alternatives dev 2>/dev/null");
		//execute_cmd("/bin/umount -r %s/* 2>/dev/null", work_dir);
		umount(work_dir);

		return status;//默认返回0
	}
}
/*
 int read_proc_statm(int pid){
 FILE * pf;
 char fn[4096];
 int ret;
 sprintf(fn,"/proc/%d/statm",pid);
 pf=fopen(fn,"r");
 fscanf(pf,"%d",&ret);
 fclose(pf);
 return ret;
 }
 */
int get_proc_status(int pid, const char *mark)
{
	FILE *pf;
	char fn[BUFFER_SIZE], buf[BUFFER_SIZE];
	int ret = 0;
	sprintf(fn, "/proc/%d/status", pid);
	pf = fopen(fn, "re");
	int m = strlen(mark);
	while (pf && fgets(buf, BUFFER_SIZE - 1, pf))
	{

		buf[strlen(buf) - 1] = 0;
		if (strncmp(buf, mark, m) == 0)
		{
			sscanf(buf + m + 1, "%d", &ret);
		}
	}
	if (pf)
		fclose(pf);
	return ret;
}

#ifdef _mysql_h
int init_mysql_conn()
{

	conn = mysql_init(NULL);
	//mysql_real_connect(conn,host_name,user_name,password,db_name,port_number,0,0);
	const char timeout = 30;
	mysql_options(conn, MYSQL_OPT_CONNECT_TIMEOUT, &timeout);

	if (!mysql_real_connect(conn, host_name, user_name, password, db_name,
							port_number, 0, 0))
	{
		write_log("%s", mysql_error(conn));
		return 0;
	}
	const char *utf8sql = "set names utf8";
	if (mysql_real_query(conn, utf8sql, strlen(utf8sql)))
	{
		write_log("%s", mysql_error(conn));
		return 0;
	}
	return 1;
}
#endif

#ifdef _mysql_h
//根据情况读取待评测程序源码
//并在默认目录work_dir : /home/judge/run0下建立 Main.c
void _get_solution_mysql(int solution_id, char *work_dir, int lang)
{
	char sql[BUFFER_SIZE], src_pth[BUFFER_SIZE];
	// get the source code
	MYSQL_RES *res;
	MYSQL_ROW row;
	sprintf(sql, "SELECT source FROM source_code WHERE solution_id=%d",
			solution_id);
	mysql_real_query(conn, sql, strlen(sql));
	res = mysql_store_result(conn);

	// create the src file
	if (DEBUG)
		printf("Main=%s", src_pth);
	if (res != NULL)
	{
		row = mysql_fetch_row(res);
		if(row != NULL) {
			sprintf(src_pth, "Main.%s", lang_ext[lang]);
			FILE *fp_src = fopen(src_pth, "we");
			fprintf(fp_src, "%s", row[0]);
			mysql_free_result(res); // free the memory
			res = NULL;
			row = NULL;
			fclose(fp_src);
		}
	}
}
#endif
void _get_solution_http(int solution_id, char *work_dir, int lang)
{
	char src_pth[BUFFER_SIZE];

	// create the src file
	sprintf(src_pth, "Main.%s", lang_ext[lang]);
	if (DEBUG)
		printf("Main=%s", src_pth);

	//login();

	const char *cmd2 =
		"wget --post-data=\"getsolution=1&sim_id=%d\" --load-cookies=cookie --save-cookies=cookie --keep-session-cookies -q -O %s \"%s/admin/problem_judge.php\"";
	FILE *pout = read_cmd_output(cmd2, solution_id, src_pth, http_baseurl);

	pclose(pout);
}
void get_solution(int solution_id, char *work_dir, int lang)
{
	char src_pth[BUFFER_SIZE];
	sprintf(src_pth, "Main.%s", lang_ext[lang]);
	if (http_judge)
	{
		_get_solution_http(solution_id, work_dir, lang);
	}
	else
	{

#ifdef _mysql_h
		_get_solution_mysql(solution_id, work_dir, lang);
#endif
	}
	if(lang == 6 ){
		py2 = execute_cmd("/bin/grep 'python2' %s/Main.py > /dev/null", work_dir);
	}
	execute_cmd("chown judge %s/%s", work_dir, src_pth);
}

#ifdef _mysql_h
void _get_custominput_mysql(int solution_id, char *work_dir)
{
	char sql[BUFFER_SIZE], src_pth[BUFFER_SIZE];
	// get the source code
	printf("geting custom input\n");
	MYSQL_RES *res;
	MYSQL_ROW row;
	sprintf(sql, "SELECT input_text FROM custom_input WHERE solution_id=%d",
			solution_id);
	mysql_real_query(conn, sql, strlen(sql));
	res = mysql_store_result(conn);
	row = mysql_fetch_row(res);
	if (row != NULL)
	{

		// create the src file
		sprintf(src_pth, "data.in");
		FILE *fp_src = fopen(src_pth, "w");
		fprintf(fp_src, "%s", row[0]);
		fclose(fp_src);
	}
	if (res != NULL)
	{
		printf("no custom input\n");
		mysql_free_result(res); // free the memory
		res = NULL;
	}
}
#endif
void _get_custominput_http(int solution_id, char *work_dir)
{
	char src_pth[BUFFER_SIZE];

	// create the src file
	sprintf(src_pth, "data.in");

	//login();

	const char *cmd2 =
		"wget --post-data=\"getcustominput=1&sim_id=%d\" --load-cookies=cookie --save-cookies=cookie --keep-session-cookies -q -O %s \"%s/admin/problem_judge.php\"";
	FILE *pout = read_cmd_output(cmd2, solution_id, src_pth, http_baseurl);

	pclose(pout);
}
void get_custominput(int solution_id, char *work_dir)
{
	if (http_judge)
	{
		_get_custominput_http(solution_id, work_dir);
	}
	else
	{
#ifdef _mysql_h
		_get_custominput_mysql(solution_id, work_dir);
#endif
	}
}

#ifdef _mysql_h
void _get_solution_info_mysql(int solution_id, int & p_id, int & user_id,
		int & lang,int &cid) {

	MYSQL_RES *res;
	MYSQL_ROW row;

	char sql[BUFFER_SIZE];
	// get the problem id and user id from Table:solution
	if (turbo_mode == 2)
	{
		sprintf(sql,
				"insert into solution2 select *  FROM solution where solution_id=%d",
				solution_id);
		//printf("%s\n",sql);
		mysql_real_query(conn, sql, strlen(sql));
		sprintf(sql,
				"SELECT problem_id, user_id, language,contest_id FROM solution2 where solution_id=%d",
				solution_id);
		//printf("%s\n",sql);
	}
	else
	{
		sprintf(sql,
				"SELECT problem_id, user_id, language,contest_id FROM solution where solution_id=%d",
				solution_id);
	}
	//printf("%s\n",sql);
	mysql_real_query(conn, sql, strlen(sql));
	res = mysql_store_result(conn);
	row = mysql_fetch_row(res);
	p_id = atoi(row[0]);
	//strcpy(user_id, row[1]);
	user_id=atoi(row[1]);
	lang = atoi(row[2]);
	if(row[3]==NULL) cid=0;
	else cid = atoi(row[3]);
	printf("cid:%d\n",cid);
	if(res!=NULL) {
		mysql_free_result(res);                         // free the memory
		res=NULL;
	}
}
#endif
void _get_solution_info_http(int solution_id, int & p_id, int & user_id,
		int & lang,int & cid) {

	login();

	const char *cmd =
		"wget --post-data=\"getsolutioninfo=1&sim_id=%d\" --load-cookies=cookie --save-cookies=cookie --keep-session-cookies -q -O - \"%s/admin/problem_judge.php\"";
	FILE *pout = read_cmd_output(cmd, solution_id, http_baseurl);
	fscanf(pout, "%d", &p_id);
	fscanf(pout, "%s", user_id);
	fscanf(pout, "%d", &lang);
	fscanf(pout, "%d", &cid);
	pclose(pout);
}
void get_solution_info(int solution_id, int & p_id, int & user_id,
		int & lang,int & cid) {

	if (http_judge) {
		_get_solution_info_http(solution_id, p_id, user_id, lang,cid);
	} else {
#ifdef _mysql_h
		_get_solution_info_mysql(solution_id, p_id, user_id, lang,cid);
#endif
	}
}

#ifdef _mysql_h
void _get_problem_info_mysql(int p_id, double &time_lmt, int &mem_lmt,
							 int &isspj)
{
	// get the problem info from Table:problem
	char sql[BUFFER_SIZE];
	MYSQL_RES *res;
	MYSQL_ROW row;
	sprintf(sql,
			"SELECT time_limit,memory_limit,spj FROM problem where problem_id=%d",
			p_id);
	mysql_real_query(conn, sql, strlen(sql));
	res = mysql_store_result(conn);
	row = mysql_fetch_row(res);
	time_lmt = atof(row[0]);
	mem_lmt = atoi(row[1]);
	isspj = (row[2][0] == '1');
	if (res != NULL)
	{
		mysql_free_result(res); // free the memory
		res = NULL;
	}
}
#endif
void _get_problem_info_http(int p_id, double &time_lmt, int &mem_lmt,
							int &isspj)
{
	//login();

	const char *cmd =
		"wget --post-data=\"getprobleminfo=1&pid=%d\" --load-cookies=cookie --save-cookies=cookie --keep-session-cookies -q -O - \"%s/admin/problem_judge.php\"";
	FILE *pout = read_cmd_output(cmd, p_id, http_baseurl);
	fscanf(pout, "%lf", &time_lmt);
	fscanf(pout, "%d", &mem_lmt);
	fscanf(pout, "%d", &isspj);
	pclose(pout);
	if(DEBUG) printf("time_lmt:%g\n",time_lmt);
}

void get_problem_info(int p_id, double &time_lmt, int &mem_lmt, int &isspj)
{
	if (http_judge)
	{
		_get_problem_info_http(p_id, time_lmt, mem_lmt, isspj);
	}
	else
	{
#ifdef _mysql_h
		_get_problem_info_mysql(p_id, time_lmt, mem_lmt, isspj);
#endif
	}
	if (time_lmt <= 0)
		time_lmt = 1;
}
char *escape(char s[], char t[])
{
	int i, j;
	for (i = j = 0; t[i] != '\0'; ++i)
	{
		if (t[i] == '\'')
		{
			s[j++] = '\'';
			s[j++] = '\\';
			s[j++] = '\'';
			s[j++] = '\'';
			continue;
		}
		else
		{
			s[j++] = t[i];
		}
	}
	s[j] = '\0';
	return s;
}

/*
功能：
	1、把评测的输入数据复制到/home/judge/run0/data.in
	2、给outfile 赋值； /home/judge/data/1000/fname.out
	3、给userfile 赋值： /home/judge/ruun0/user.out
输入：
	filename: 输入数据文件名称 不包括扩展名.in 如sample / test
	namelen:  输入数据文件主名长度 sample:6 test:4
	infile : char * infile[] 在main()中定义，保存完整测试数据路径：/home/judge/data/1000/sample.in 或 /home/judge/data/1000/test.in
	p_id   : 问题编号
	work_dir: 默认的评测进程路径 /home/judge/run0
	outfile: char * outfile[] 在main()中定义，保存完整正确结果数据路径：/home/judge/data/1000/ sample.out或/home/judge/data/1000/test.out
	userfile:char* userfile[] 在main()中定义，保存完整 用户程序结果数据路径：/home/judge/run0/user.out
	runner_id: 判题进程编号run0 run1 run2 run3 取值0-max_running-1

输出：
    无
注释：
    2014-11-4 17:00 by ghf in HNSSYZX ZhengZhou
*/
/*
在 int main()中调用：
prepare_files(dirp->d_name, namelen, infile, p_id, work_dir, outfile,
				userfile, runner_id);
*/
void prepare_files(char *filename, int namelen, char *infile, int &p_id,
				   char *work_dir, char *outfile, char *userfile, int runner_id)
{
	//              printf("ACflg=%d %d check a file!\n",ACflg,solution_id);

	char fname0[BUFFER_SIZE];
	char fname[BUFFER_SIZE];
	strncpy(fname0, filename, namelen);//保存测试数据主名
	fname0[namelen] = 0;//c字符串末尾\0结尾
	escape(fname, fname0);
	//printf("%s\n%s\n",fname0,fname);
	sprintf(infile, "%s/data/%d/%s.in", oj_home, p_id, fname);//测试数据完整路径
	if(copy_data)execute_cmd("/bin/cp '%s' %s/data.in", infile, work_dir);//复制测试数据到run0目录下
	if(copy_data)execute_cmd("/bin/cp '%s' %s/data.in", infile, work_dir);//复制测试数据到run0目录下
	execute_cmd("/bin/cp %s/data/%d/*.dic %s/ 2>/dev/null", oj_home, p_id, work_dir);//dic数据复制？？？？
 	execute_cmd("chown judge %s/*.dic ", work_dir);
	sprintf(outfile, "%s/data/%d/%s.out", oj_home, p_id, fname0);
	sprintf(userfile, "%s/run%d/user.out", oj_home, runner_id);
}

void copy_shell_runtime(char *work_dir)
{

	execute_cmd("/bin/mkdir %s/lib", work_dir);
	execute_cmd("/bin/mkdir %s/lib64", work_dir);
	execute_cmd("/bin/mkdir %s/bin", work_dir);
#ifdef __mips__
	execute_cmd("/bin/cp -a /lib/mips64el-linux-gnuabi64/  %s/lib/mips64el-linux-gnuabi64",work_dir);
	execute_cmd("mkdir -p %s/lib/mips64el-linux-gnuabi64/",work_dir);
	execute_cmd("/bin/cp -a /lib64/ld.so.1  %s/lib64/", work_dir);
	execute_cmd("/bin/cp -a /lib/mips64el-linux-gnuabi64/libdl.so.2  %s/lib/mips64el-linux-gnuabi64", work_dir);
	execute_cmd("/bin/cp -a /lib/mips64el-linux-gnuabi64/libutil.so.1  %s/lib/mips64el-linux-gnuabi64", work_dir);
	execute_cmd("/bin/cp -a /lib/mips64el-linux-gnuabi64/libz.so.1  %s/lib/mips64el-linux-gnuabi64", work_dir);
	execute_cmd("/bin/cp -a /lib/mips64el-linux-gnuabi64/libm.so.6  %s/lib/mips64el-linux-gnuabi64", work_dir);
	execute_cmd("/bin/cp -a /lib/mips64el-linux-gnuabi64/libc.so.6  %s/lib/mips64el-linux-gnuabi64", work_dir);
	execute_cmd("/bin/cp -a /lib/mips64el-linux-gnuabi64/libtinfo.so.5  %s/lib/mips64el-linux-gnuabi64", work_dir);
	execute_cmd("/bin/cp -a /lib/mips64el-linux-gnuabi64/ld-2.24.so  %s/lib/mips64el-linux-gnuabi64", work_dir);
	execute_cmd("/bin/cp -a /lib/mips64el-linux-gnuabi64/libc-2.24.so  %s/lib/mips64el-linux-gnuabi64", work_dir);
	execute_cmd("/bin/cp -a /lib64/libc.so.6 %s/lib64/", work_dir);
	execute_cmd("/bin/cp -a /lib64/libtinfo.so.6  %s/lib64/", work_dir);
	execute_cmd("/bin/cp -a /lib64/ld-2.27.so  %s/lib64/", work_dir);
	execute_cmd("/bin/cp -a /lib64/libc-2.27.so %s/lib64/", work_dir);
	execute_cmd("/bin/cp -a /lib64/libdl-2.27.so %s/lib64/", work_dir);
	execute_cmd("/bin/cp -a /lib64/libtinfo.so.6.1 %s/lib64/", work_dir);
	execute_cmd("cp  /lib/mips64el-linux-gnuabi64/libpthread.so.0 %s/lib/mips64el-linux-gnuabi64/",work_dir);
	execute_cmd("/bin/cp -a /bin/bash %s/bin/", work_dir);

#endif

#ifdef __i386
	execute_cmd("/bin/cp /lib/ld-linux* %s/lib/", work_dir);
	execute_cmd("/bin/cp -a /lib/i386-linux-gnu/  %s/lib/", work_dir);
//	execute_cmd("/bin/cp -a /usr/lib/i386-linux-gnu %s/lib/", work_dir);
#endif

#ifdef __x86_64__
	execute_cmd("mount -o bind /lib %s/lib", work_dir);
	execute_cmd("mount -o bind /lib64 %s/lib64", work_dir);
#endif
	//	execute_cmd("/bin/cp /lib32 %s/", work_dir);
	execute_cmd("/bin/cp /bin/busybox %s/bin/", work_dir);
	execute_cmd("/bin/ln -s /bin/busybox %s/bin/sh", work_dir);
	execute_cmd("/bin/cp /bin/bash %s/bin/bash", work_dir);
}
void copy_objc_runtime(char *work_dir)
{
	copy_shell_runtime(work_dir);
	execute_cmd("/bin/mkdir -p %s/proc", work_dir);
	execute_cmd("/bin/mount -o bind /proc %s/proc", work_dir);
	execute_cmd("/bin/mkdir -p %s/lib/", work_dir);
	execute_cmd(
		"/bin/cp -aL /lib/libdbus-1.so.3                          %s/lib/ ",
		work_dir);
	execute_cmd(
		"/bin/cp -aL /lib/libgcc_s.so.1                           %s/lib/ ",
		work_dir);
	execute_cmd(
		"/bin/cp -aL /lib/libgcrypt.so.11                         %s/lib/ ",
		work_dir);
	execute_cmd(
		"/bin/cp -aL /lib/libgpg-error.so.0                       %s/lib/ ",
		work_dir);
	execute_cmd(
		"/bin/cp -aL /lib/libz.so.1                               %s/lib/ ",
		work_dir);
	execute_cmd(
		"/bin/cp -aL /lib/tls/i686/cmov/libc.so.6                 %s/lib/ ",
		work_dir);
	execute_cmd(
		"/bin/cp -aL /lib/tls/i686/cmov/libdl.so.2                %s/lib/ ",
		work_dir);
	execute_cmd(
		"/bin/cp -aL /lib/tls/i686/cmov/libm.so.6                 %s/lib/ ",
		work_dir);
	execute_cmd(
		"/bin/cp -aL /lib/tls/i686/cmov/libnsl.so.1               %s/lib/ ",
		work_dir);
	execute_cmd(
		"/bin/cp -aL /lib/tls/i686/cmov/libpthread.so.0           %s/lib/ ",
		work_dir);
	execute_cmd(
		"/bin/cp -aL /lib/tls/i686/cmov/librt.so.1                %s/lib/ ",
		work_dir);
	execute_cmd(
		"/bin/cp -aL /usr/lib/libavahi-client.so.3                %s/lib/ ",
		work_dir);
	execute_cmd(
		"/bin/cp -aL /usr/lib/libavahi-common.so.3                %s/lib/ ",
		work_dir);
	execute_cmd(
		"/bin/cp -aL /usr/lib/libdns_sd.so.1                      %s/lib/ ",
		work_dir);
	execute_cmd(
		"/bin/cp -aL /usr/lib/libffi.so.5                         %s/lib/ ",
		work_dir);
	execute_cmd(
		"/bin/cp -aL /usr/lib/libgnustep-base.so.1.19             %s/lib/ ",
		work_dir);
	execute_cmd(
		"/bin/cp -aL /usr/lib/libgnutls.so.26                     %s/lib/ ",
		work_dir);
	execute_cmd(
		"/bin/cp -aL /usr/lib/libobjc.so.2                        %s/lib/ ",
		work_dir);
	execute_cmd(
		"/bin/cp -aL /usr/lib/libtasn1.so.3                       %s/lib/ ",
		work_dir);
	execute_cmd(
		"/bin/cp -aL /usr/lib/libxml2.so.2                        %s/lib/ ",
		work_dir);
	execute_cmd(
		"/bin/cp -aL /usr/lib/libxslt.so.1                        %s/lib/ ",
		work_dir);
}
void copy_bash_runtime(char *work_dir)
{
	//char cmd[BUFFER_SIZE];
	//const char * ruby_run="/usr/bin/ruby";
	copy_shell_runtime(work_dir);
	execute_cmd("/bin/cp `which bc`  %s/bin/", work_dir);
	execute_cmd("busybox dos2unix Main.sh", work_dir);
	execute_cmd("/bin/ln -s /bin/busybox %s/bin/grep", work_dir);
	execute_cmd("/bin/ln -s /bin/busybox %s/bin/awk", work_dir);
	execute_cmd("/bin/cp /bin/sed %s/bin/sed", work_dir);
	execute_cmd("/bin/ln -s /bin/busybox %s/bin/cut", work_dir);
	execute_cmd("/bin/ln -s /bin/busybox %s/bin/sort", work_dir);
	execute_cmd("/bin/ln -s /bin/busybox %s/bin/join", work_dir);
	execute_cmd("/bin/ln -s /bin/busybox %s/bin/wc", work_dir);
	execute_cmd("/bin/ln -s /bin/busybox %s/bin/tr", work_dir);
	execute_cmd("/bin/ln -s /bin/busybox %s/bin/dc", work_dir);
	execute_cmd("/bin/ln -s /bin/busybox %s/bin/dd", work_dir);
	execute_cmd("/bin/ln -s /bin/busybox %s/bin/cat", work_dir);
	execute_cmd("/bin/ln -s /bin/busybox %s/bin/tail", work_dir);
	execute_cmd("/bin/ln -s /bin/busybox %s/bin/head", work_dir);
	execute_cmd("/bin/ln -s /bin/busybox %s/bin/xargs", work_dir);
	execute_cmd("chmod +rx %s/Main.sh", work_dir);
}
void copy_ruby_runtime(char *work_dir)
{

	copy_shell_runtime(work_dir);
	execute_cmd("mkdir -p %s/usr", work_dir);
	execute_cmd("mkdir -p %s/usr/lib", work_dir);
	execute_cmd("mkdir -p %s/usr/lib64", work_dir);
	execute_cmd("cp -a /usr/lib/libruby* %s/usr/lib/", work_dir);
	execute_cmd("cp -a /usr/lib/ruby* %s/usr/lib/", work_dir);
	execute_cmd("cp -a /usr/lib64/ruby* %s/usr/lib64/", work_dir);
	execute_cmd("cp -a /usr/lib64/libruby* %s/usr/lib64/", work_dir);
	execute_cmd("cp -a /usr/bin/ruby* %s/", work_dir);
#ifdef __x86_64__
	execute_cmd("/bin/cp -a /usr/lib/x86_64-linux-gnu/libruby* %s/usr/lib/", work_dir);
	execute_cmd("/bin/cp -a /usr/lib/x86_64-linux-gnu/libgmp* %s/usr/lib/", work_dir);
#endif
}

void copy_guile_runtime(char *work_dir)
{

	copy_shell_runtime(work_dir);
	execute_cmd("/bin/mkdir -p %s/proc", work_dir);
	execute_cmd("/bin/mount -o bind /proc %s/proc", work_dir);
	execute_cmd("/bin/mkdir -p %s/usr/lib", work_dir);
	execute_cmd("/bin/mkdir -p %s/usr/share", work_dir);
	execute_cmd("/bin/cp -a /usr/share/guile %s/usr/share/", work_dir);
	execute_cmd("/bin/cp /usr/lib/libguile* %s/usr/lib/", work_dir);
	execute_cmd("/bin/cp /usr/lib/libgc* %s/usr/lib/", work_dir);
	execute_cmd("/bin/cp /usr/lib/i386-linux-gnu/libffi* %s/usr/lib/",
				work_dir);
	execute_cmd("/bin/cp /usr/lib/i386-linux-gnu/libunistring* %s/usr/lib/",
				work_dir);
	execute_cmd("/bin/cp /usr/lib/*/libgmp* %s/usr/lib/", work_dir);
	execute_cmd("/bin/cp /usr/lib/libgmp* %s/usr/lib/", work_dir);
	execute_cmd("/bin/cp /usr/lib/*/libltdl* %s/usr/lib/", work_dir);
	execute_cmd("/bin/cp /usr/lib/libltdl* %s/usr/lib/", work_dir);
	execute_cmd("/bin/cp /usr/bin/guile* %s/", work_dir);
#ifdef __x86_64__
	execute_cmd("/bin/cp -a /usr/lib/x86_64-linux-gnu/libguile* %s/usr/lib/", work_dir);
	execute_cmd("/bin/cp -a /usr/lib/x86_64-linux-gnu/libgc* %s/usr/lib/", work_dir);
	execute_cmd("/bin/cp -a /usr/lib/x86_64-linux-gnu/libffi* %s/usr/lib/", work_dir);
	execute_cmd("/bin/cp -a /usr/lib/x86_64-linux-gnu/libunistring* %s/usr/lib/", work_dir);
#endif
}

void copy_python_runtime(char *work_dir)
{
	copy_shell_runtime(work_dir);
	execute_cmd("mkdir -p %s/usr/include", work_dir);
	execute_cmd("mkdir -p %s/dev", work_dir);

	execute_cmd("mkdir -p %s/usr/lib", work_dir);
	execute_cmd("mkdir -p %s/usr/lib64", work_dir);
	execute_cmd("mkdir -p %s/usr/local/lib", work_dir);
	execute_cmd("mkdir -p %s/lib/x86_64-linux-gnu", work_dir);

	// /etc/abrt/plugins/python.conf for Centos7
	execute_cmd("mkdir -p %s/etc/abrt", work_dir);
	execute_cmd("mkdir -p %s/etc/abrt/plugins", work_dir);
	execute_cmd("cp -a /etc/abrt/plugins/python.conf %s/etc/abrt/plugins/python.conf", work_dir);

	// /usr/share/abrt/conf.d/plugins/python.conf for Centos7
	execute_cmd("mkdir -p %s/usr/share", work_dir);
	execute_cmd("mkdir -p %s/usr/share/abrt/", work_dir);
	execute_cmd("mkdir -p %s/usr/share/abrt/conf.d", work_dir);
	execute_cmd("mkdir -p %s/usr/share/abrt/conf.d/plugins", work_dir);
	execute_cmd("cp -a /usr/share/abrt/conf.d/plugins/python.conf %s/usr/share/abrt/conf.d/plugins/python.conf", work_dir);
	if(!py2){
		execute_cmd("cp /usr/bin/python2* %s/", work_dir);
		execute_cmd("cp -a /usr/lib/python2* %s/usr/lib/", work_dir);
		execute_cmd("cp -a /usr/lib64/python2.7  %s/usr/lib64/", work_dir);
#if (defined __mips__)
		execute_cmd("cp -a /usr/lib64/python2* %s/usr/lib64/", work_dir);
		execute_cmd("mkdir -p  %s/usr/local/lib/", work_dir);
		execute_cmd("cp -a /usr/local/lib/python2* %s/usr/local/lib/", work_dir);
#endif
	}else{
		execute_cmd("cp /usr/bin/python3* %s/", work_dir);
		execute_cmd("cp -a /usr/lib/python3* %s/usr/lib/", work_dir);
		execute_cmd("cp -a /usr/lib64/python3.6  %s/usr/lib64/", work_dir);
#if (defined __mips__)
		execute_cmd("cp -a /usr/lib64/python3* %s/usr/lib64/", work_dir);
		execute_cmd("mkdir -p  %s/usr/local/lib/", work_dir);
		execute_cmd("cp -a /usr/local/lib/python3* %s/usr/local/lib/", work_dir);
#endif
	}
	execute_cmd("cp /usr/lib/lapack/* %s/usr/lib/liblapack.so.3", work_dir);
	execute_cmd("cp /usr/lib/libblas/* %s/usr/lib/libblas.so.3", work_dir);
	execute_cmd("cp /usr/lib/x86_64-linux-gnu/libgfortran.so.3 %s/usr/lib/", work_dir);
	execute_cmd("cp /usr/lib/x86_64-linux-gnu/libquadmath.so.0 %s/usr/lib", work_dir);
	execute_cmd("cp /usr/lib/x86_64-linux-gnu/blas/* %s/usr/lib", work_dir);
	execute_cmd("cp /usr/lib/x86_64-linux-gnu/liblapack.so* %s/usr/lib", work_dir);
	execute_cmd("cp /usr/lib/x86_64-linux-gnu/libgfortran.so.4 %s/usr/lib", work_dir);
#ifdef __mips__
	execute_cmd("/bin/cp -a /lib64/libpthread.so.0 %s/lib64/", work_dir);
	execute_cmd("/bin/cp -a /lib64/libutil.so.1 %s/lib64/", work_dir);
	execute_cmd("/bin/cp -a /lib64/libm.so.6 %s/lib64/", work_dir);
	execute_cmd("/bin/cp -a /lib64/libc.so.6 %s/lib64/", work_dir);
	execute_cmd("/bin/cp -a /lib64/libpthread-2.27.so %s/lib64/", work_dir);
	execute_cmd("/bin/cp -a /lib64/libutil-2.27.so %s/lib64/", work_dir);
	execute_cmd("/bin/cp -a /lib64/libc-2.27.so %s/lib64/", work_dir);
	execute_cmd("/bin/cp -a /lib64/libm-2.27.so %s/lib64/", work_dir);


#endif

	/*execute_cmd("/bin/mkdir -p %s/lib/x86_64-linux-gnu", work_dir);
	execute_cmd("/bin/cp -a /lib/x86_64-linux-gnu/libpthread* %s/lib/x86_64-linux-gnu/", work_dir);
	execute_cmd("/bin/cp -a /lib/x86_64-linux-gnu/libdl.so.2 %s/lib/x86_64-linux-gnu/", work_dir);
	execute_cmd("/bin/cp -a /lib/x86_64-linux-gnu/libutil.so.1 %s/lib/x86_64-linux-gnu/", work_dir);
	execute_cmd("/bin/cp -a /lib/x86_64-linux-gnu/libexpat.so.1 %s/lib/x86_64-linux-gnu/", work_dir);
	execute_cmd("/bin/cp -a /lib/x86_64-linux-gnu/libz.so.1 %s/lib/x86_64-linux-gnu/", work_dir);
	execute_cmd("/bin/cp -a /lib/x86_64-linux-gnu/libm.so.6 %s/lib/x86_64-linux-gnu/", work_dir);
	*/
	//execute_cmd("/bin/cp -a /lib/x86_64-linux-gnu/ %s/lib/x86_64-linux-gnu/", work_dir);

	execute_cmd("cp -a /usr/lib64/libpython* %s/usr/lib64/", work_dir);
	execute_cmd("cp -a /usr/local/lib/python* %s/usr/local/lib/", work_dir);
	execute_cmd("cp -a /usr/include/python* %s/usr/include/", work_dir);
	execute_cmd("cp -a /usr/lib/libpython* %s/usr/lib/", work_dir);
	execute_cmd("/bin/mkdir -p %s/home/judge", work_dir);
	execute_cmd("/bin/chown judge %s", work_dir);
	execute_cmd("/bin/mkdir -p %s/etc", work_dir);
	execute_cmd("/bin/grep judge /etc/passwd>%s/etc/passwd", work_dir);
	execute_cmd("/bin/mount -o bind /dev %s/dev", work_dir);
	execute_cmd("/bin/mount -o remount,ro %s/dev", work_dir);
}
void copy_php_runtime(char *work_dir)
{

	copy_shell_runtime(work_dir);
	execute_cmd("/bin/mkdir %s/usr", work_dir);
	execute_cmd("/bin/mkdir %s/usr/lib", work_dir);
	execute_cmd("/bin/cp /usr/lib/libedit* %s/usr/lib/", work_dir);
	execute_cmd("/bin/cp /usr/lib/libdb* %s/usr/lib/", work_dir);
	execute_cmd("/bin/cp /usr/lib/libgssapi_krb5* %s/usr/lib/", work_dir);
	execute_cmd("/bin/cp /usr/lib/libkrb5* %s/usr/lib/", work_dir);
	execute_cmd("/bin/cp /usr/lib/libk5crypto* %s/usr/lib/", work_dir);
	execute_cmd("/bin/cp /usr/lib/*/libedit* %s/usr/lib/", work_dir);
	execute_cmd("/bin/cp /usr/lib/*/libdb* %s/usr/lib/", work_dir);
	execute_cmd("/bin/cp /usr/lib/*/libgssapi_krb5* %s/usr/lib/", work_dir);
	execute_cmd("/bin/cp /usr/lib/*/libkrb5* %s/usr/lib/", work_dir);
	execute_cmd("/bin/cp /usr/lib/*/libk5crypto* %s/usr/lib/", work_dir);
	execute_cmd("/bin/cp /usr/lib/libxml2* %s/usr/lib/", work_dir);
#ifdef __x86_64__
	execute_cmd("/bin/cp /usr/lib/x86_64-linux-gnu/libxml2.so* %s/usr/lib/", work_dir);
	execute_cmd("/bin/cp /usr/lib/x86_64-linux-gnu/libicuuc.so* %s/usr/lib/", work_dir);
	execute_cmd("/bin/cp /usr/lib/x86_64-linux-gnu/libicudata.so* %s/usr/lib/", work_dir);
	execute_cmd("/bin/cp /usr/lib/x86_64-linux-gnu/libstdc++.so* %s/usr/lib/", work_dir);
	execute_cmd("/bin/cp /usr/lib/x86_64-linux-gnu/libssl* %s/usr/lib/", work_dir);
	execute_cmd("/bin/cp /usr/lib/x86_64-linux-gnu/libcrypto* %s/usr/lib/", work_dir);
#endif
	execute_cmd("/bin/cp /usr/bin/php* %s/", work_dir);
	execute_cmd("chmod +rx %s/Main.php", work_dir);
}
void copy_perl_runtime(char *work_dir)
{

	copy_shell_runtime(work_dir);
	execute_cmd("/bin/mkdir %s/usr", work_dir);
	execute_cmd("/bin/mkdir %s/usr/lib", work_dir);
	execute_cmd("/bin/cp /usr/lib/libperl* %s/usr/lib/", work_dir);
	execute_cmd("/bin/cp /usr/bin/perl* %s/", work_dir);
}
void copy_freebasic_runtime(char *work_dir)
{

	copy_shell_runtime(work_dir);
	execute_cmd("/bin/mkdir -p %s/usr/local/lib", work_dir);
	execute_cmd("/bin/mkdir -p %s/usr/local/bin", work_dir);
	execute_cmd("/bin/cp /usr/local/lib/freebasic %s/usr/local/lib/", work_dir);
	execute_cmd("/bin/cp /usr/local/bin/fbc %s/", work_dir);
	execute_cmd("/bin/cp -a /lib32/* %s/lib/", work_dir);
}
void copy_mono_runtime(char *work_dir)
{

	copy_shell_runtime(work_dir);
	execute_cmd("/bin/mkdir %s/usr", work_dir);
	execute_cmd("/bin/mkdir %s/proc", work_dir);
	execute_cmd("/bin/mkdir -p %s/usr/lib/mono/2.0", work_dir);
	execute_cmd("/bin/cp -a /usr/lib/mono %s/usr/lib/", work_dir);
	execute_cmd("/bin/mkdir -p %s/usr/lib64/mono/2.0", work_dir);
	execute_cmd("/bin/cp -a /usr/lib64/mono %s/usr/lib64/", work_dir);

	execute_cmd("/bin/cp /usr/lib/libgthread* %s/usr/lib/", work_dir);

	execute_cmd("/bin/mount -o bind /proc %s/proc", work_dir);
	execute_cmd("/bin/cp /usr/bin/mono* %s/", work_dir);

	execute_cmd("/bin/cp /usr/lib/libgthread* %s/usr/lib/", work_dir);
	execute_cmd("/bin/cp /lib/libglib* %s/lib/", work_dir);
	execute_cmd("/bin/cp /lib/tls/i686/cmov/lib* %s/lib/tls/i686/cmov/",
				work_dir);
	execute_cmd("/bin/cp /lib/libpcre* %s/lib/", work_dir);
	execute_cmd("/bin/cp /lib/ld-linux* %s/lib/", work_dir);
#ifdef __x86_64__
	execute_cmd("/bin/cp /lib64/ld-linux* %s/lib64/", work_dir);
	execute_cmd("/bin/mkdir -p %s/usr/lib/x86_64-linux-gnu", work_dir);
	execute_cmd("/bin/cp /usr/lib/x86_64-linux-gnu/libm.so.6 %s/usr/lib/x86_64-linux-gnu/", work_dir);
	execute_cmd("/bin/cp /usr/lib/x86_64-linux-gnu/librt.so.1 %s/usr/lib/x86_64-linux-gnu/", work_dir);
	execute_cmd("/bin/cp /usr/lib/x86_64-linux-gnu/libpthread.so.0 %s/usr/lib/x86_64-linux-gnu/", work_dir);
	execute_cmd("/bin/cp /usr/lib/x86_64-linux-gnu/libgcc_s.so.1 %s/usr/lib/x86_64-linux-gnu/", work_dir);
	execute_cmd("/bin/cp /usr/lib/x86_64-linux-gnu/libc.so.6 %s/usr/lib/x86_64-linux-gnu/", work_dir);
	execute_cmd("/bin/cp /lib64/ld-linux-x86-64.so.2 %s/lib64", work_dir);
#endif
	execute_cmd("/bin/mkdir -p %s/home/judge", work_dir);
	execute_cmd("/bin/chown judge %s/home/judge", work_dir);
	execute_cmd("/bin/mkdir -p %s/etc", work_dir);
	execute_cmd("/bin/grep judge /etc/passwd>%s/etc/passwd", work_dir);
}
void copy_lua_runtime(char *work_dir)
{

	copy_shell_runtime(work_dir);
	execute_cmd("/bin/mkdir -p %s/usr/local/lib", work_dir);
	execute_cmd("/bin/mkdir -p %s/usr/local/bin", work_dir);
	execute_cmd("/bin/cp /usr/bin/lua %s/", work_dir);
}
void copy_sql_runtime(char *work_dir)
{

	copy_shell_runtime(work_dir);
	execute_cmd("/bin/cp /usr/bin/sqlite3 %s/", work_dir);
#ifdef __mips__
	execute_cmd("/bin/cp /lib64/libedit.so.0 %s/lib64/", work_dir);
	execute_cmd("/bin/cp /lib64/libm.so.6 %s/lib64/", work_dir);
	execute_cmd("/bin/cp /lib64/libdl.so.2 %s/lib64/", work_dir);
	execute_cmd("/bin/cp /lib64/libz.so.1 %s/lib64/", work_dir);
	execute_cmd("/bin/cp /lib64/libpthread.so.0 %s/lib64/", work_dir);
	execute_cmd("/bin/cp /lib64/libc.so.6 %s/lib64/", work_dir);
	execute_cmd("/bin/cp /lib64/libtinfo.so.6 %s/lib64/", work_dir);
#endif
#ifdef __i386__
	execute_cmd("/bin/cp /usr/lib/i386-linux-gnu/libsqlite3.so.0*   %s/lib/", work_dir);
	execute_cmd("/bin/cp /lib/i386-linux-gnu/libreadline.so.6*   %s/lib/", work_dir);
	execute_cmd("/bin/cp /lib/i386-linux-gnu/libc.so.6*  %s/lib/", work_dir);
	execute_cmd("/bin/cp /lib/i386-linux-gnu/libpthread.so.0 %s/lib/", work_dir);
	execute_cmd("/bin/cp /lib/i386-linux-gnu/libdl.so.2* %s/lib/", work_dir);
	execute_cmd("/bin/cp /lib/i386-linux-gnu/libtinfo.so.5* %s/lib/", work_dir);
	execute_cmd("/bin/cp /lib/i386-linux-gnu/libedit.so.0 %s/lib/", work_dir);
	execute_cmd("/bin/cp /lib/i386-linux-gnu/libm.so.6* %s/lib/", work_dir);
	execute_cmd("/bin/cp /lib/i386-linux-gnu/libz.so.1 %s/lib/", work_dir);
	execute_cmd("/bin/cp /lib/i386-linux-gnu/libtinfo.so.6* %s/lib/", work_dir);
#endif
#ifdef __x86_64__
	execute_cmd("/bin/cp /usr/lib/x86_64-linux-gnu/libsqlite3.so.0   %s/lib/", work_dir);
	execute_cmd("/bin/cp /lib/x86_64-linux-gnu/libreadline.so.6   %s/lib64/", work_dir);
	execute_cmd("/bin/cp /lib/x86_64-linux-gnu/libc.so.6  %s/lib64/", work_dir);
	execute_cmd("/bin/cp /lib/x86_64-linux-gnu/libpthread.so.0 %s/lib64/", work_dir);
	execute_cmd("/bin/cp /lib/x86_64-linux-gnu/libdl.so.2 %s/lib64/", work_dir);
	execute_cmd("/bin/cp /lib/x86_64-linux-gnu/libtinfo.so.5 %s/lib64/", work_dir);
	execute_cmd("/bin/cp /lib/x86_64-linux-gnu/libedit.so.0 %s/lib64/", work_dir);
	execute_cmd("/bin/cp /lib/x86_64-linux-gnu/libm.so.6 %s/lib64/", work_dir);
	execute_cmd("/bin/cp /lib/x86_64-linux-gnu/libz.so.1 %s/lib64/", work_dir);
	execute_cmd("/bin/cp /lib/x86_64-linux-gnu/libtinfo.so.6 %s/lib64/", work_dir);
#endif
}
void copy_js_runtime(char *work_dir)
{

	//copy_shell_runtime(work_dir);
	execute_cmd("mkdir -p %s/dev", work_dir);
	execute_cmd("/bin/mount -o bind /dev %s/dev", work_dir);
	execute_cmd("/bin/mount -o remount,ro %s/dev", work_dir);
	execute_cmd("/bin/mkdir -p %s/usr/lib %s/lib/i386-linux-gnu/ %s/lib64/", work_dir, work_dir, work_dir);
	execute_cmd("/bin/cp /lib/i386-linux-gnu/libz.so.*  %s/lib/i386-linux-gnu/", work_dir);
	execute_cmd("/bin/cp /usr/lib/i386-linux-gnu/libuv.so.*  %s/lib/i386-linux-gnu/", work_dir);
	execute_cmd("/bin/cp /usr/lib/i386-linux-gnu/libicui18n.so.*  %s/lib/i386-linux-gnu/", work_dir);
	execute_cmd("/bin/cp /usr/lib/i386-linux-gnu/libicuuc.so.*  %s/lib/i386-linux-gnu/", work_dir);
	execute_cmd("/bin/cp /usr/lib/i386-linux-gnu/libicudata.so.*  %s/lib/i386-linux-gnu/", work_dir);
	execute_cmd("/bin/cp /lib/i386-linux-gnu/libtinfo.so.*  %s/lib/i386-linux-gnu/", work_dir);

	execute_cmd("/bin/cp /usr/lib/i386-linux-gnu/libcares.so.*  %s/lib/i386-linux-gnu/", work_dir);
	execute_cmd("/bin/cp /usr/lib/libv8.so.*  %s/lib/i386-linux-gnu/", work_dir);
	execute_cmd("/bin/cp /lib/i386-linux-gnu/libssl.so.*  %s/lib/i386-linux-gnu/", work_dir);
	execute_cmd("/bin/cp /lib/i386-linux-gnu/libcrypto.so.*  %s/lib/i386-linux-gnu/", work_dir);
	execute_cmd("/bin/cp /lib/i386-linux-gnu/libdl.so.*  %s/lib/i386-linux-gnu/", work_dir);
	execute_cmd("/bin/cp /lib/i386-linux-gnu/librt.so.*  %s/lib/i386-linux-gnu/", work_dir);
	execute_cmd("/bin/cp /usr/lib/i386-linux-gnu/libstdc++.so.*  %s/lib/i386-linux-gnu/", work_dir);
	execute_cmd("/bin/cp /lib/i386-linux-gnu/libpthread.so.*  %s/lib/i386-linux-gnu/", work_dir);
	execute_cmd("/bin/cp /lib/i386-linux-gnu/libc.so.6  %s/lib/i386-linux-gnu/", work_dir);
	execute_cmd("/bin/cp /lib/i386-linux-gnu/libm.so.6  %s/lib/i386-linux-gnu/", work_dir);
	execute_cmd("/bin/cp /lib/i386-linux-gnu/libgcc_s.so.1  %s/lib/i386-linux-gnu/", work_dir);
	execute_cmd("/bin/cp /lib/ld-linux.so.*  %s/lib/", work_dir);

#ifdef __x86_64__
	execute_cmd("/bin/mkdir -p %s/usr/lib/x86_64-linux-gnu/ %s/lib/x86_64-linux-gnu/", work_dir, work_dir);

	//execute_cmd("/bin/cp /usr/lib/x86_64-linux-gnu/  %s/usr/lib/x86_64-linux-gnu/", work_dir);
	execute_cmd("/bin/cp /usr/lib/libv8.so.*  %s/usr/lib/", work_dir);
	execute_cmd("/bin/cp /usr/lib/x86_64-linux-gnu/libcares.so.* %s/usr/lib/x86_64-linux-gnu/", work_dir);
	execute_cmd("/bin/cp /lib/x86_64-linux-gnu/libz.so.* %s/lib/x86_64-linux-gnu/", work_dir);
	execute_cmd("/bin/cp /usr/lib/x86_64-linux-gnu/libuv.so.* %s/lib/x86_64-linux-gnu/", work_dir);
	execute_cmd("/bin/cp /lib/x86_64-linux-gnu/librt.so.* %s/lib/x86_64-linux-gnu/", work_dir);
	execute_cmd("/bin/cp /lib/x86_64-linux-gnu/libpthread.so.* %s/lib/x86_64-linux-gnu/", work_dir);
	execute_cmd("/bin/cp /lib/x86_64-linux-gnu/libdl.so.* %s/lib/x86_64-linux-gnu/", work_dir);
	execute_cmd("/bin/cp /lib/x86_64-linux-gnu/libssl.so.* %s/lib/x86_64-linux-gnu/", work_dir);
	execute_cmd("/bin/cp /lib/x86_64-linux-gnu/libcrypto.so.* %s/lib/x86_64-linux-gnu/", work_dir);
	execute_cmd("/bin/cp /usr/lib/x86_64-linux-gnu/libicui18n.so.* %s/lib/x86_64-linux-gnu/", work_dir);
	execute_cmd("/bin/cp /usr/lib/x86_64-linux-gnu/libicuuc.so.* %s/lib/x86_64-linux-gnu/", work_dir);
	execute_cmd("/bin/cp /usr/lib/x86_64-linux-gnu/libstdc++.so.* %s/lib/x86_64-linux-gnu/", work_dir);
	execute_cmd("/bin/cp /lib/x86_64-linux-gnu/libm.so.* %s/lib/x86_64-linux-gnu/", work_dir);
	execute_cmd("/bin/cp /lib/x86_64-linux-gnu/libgcc_s.so.* %s/lib/x86_64-linux-gnu/", work_dir);
	execute_cmd("/bin/cp /lib/x86_64-linux-gnu/libc.so.* %s/lib/x86_64-linux-gnu/", work_dir);
	execute_cmd("/bin/cp /lib64/ld-linux-x86-64.so.* %s/lib64/", work_dir);
	execute_cmd("/bin/cp /usr/lib/x86_64-linux-gnu/libicudata.so.* %s/lib/x86_64-linux-gnu/", work_dir);
#endif
	execute_cmd("/bin/cp /usr/bin/nodejs %s/", work_dir);
}

/*
功能：
	1、设置资源限制，运行时间、内存
	2、设定子进程运行用户
	3、修改子进程运行根目录 / 为 run0/
	4、重定向标准输入输出为文档
	5、执行程序，生成结果
输入：
    lang:       程序语言类型编码 c:0 c++:1
	work_dir:   判题进程工作目录：/home/judge/runn0,为当前默认目录
	time_lmt:   时间限制
	used_time:  运行时间
	mem_lmt:    运行内存限制
输出：
    无
调用：
    在main()中创建新的执行子进程中调用
    run_solution(lang, work_dir, time_lmt, usedtime, mem_lmt);
*/
void run_solution(int &lang, char *work_dir, double &time_lmt, int &usedtime,
				  int &mem_lmt,char * data_file_path)
{
	char * const envp[]={(char * const )"PYTHONIOENCODING=utf-8",
			     (char * const )"LANG=zh_CN.UTF-8",
			     (char * const )"LANGUAGE=zh_CN.UTF-8",
			     (char * const )"LC_ALL=zh_CN.utf-8",NULL};
    /*
    在当前程序运行优先级基础之上调整指定值得到新的程序运行优先级，
    用新的程序运行优先级运行命令行"command [arguments...]"。优先级的范围为-20 ～ 19 等40个等级，
    其中数值越小优先级越高，数值越大优先级越低，既-20的优先级最高， 19的优先级最低。
    若调整后的程序运行优先级高于-20，则就以优先级-20来运行命令行；若调整后的程序运行优先级低于19，
    则就以优先级19来运行命令行。若 nice命令未指定优先级的调整值，则以缺省值10来调整程序运行优先级，
    既在当前程序运行优先级基础之上增加10。

    调低运行级，基本用户都能执行成功，将这个执行子进程的优先级降到最低，为了安全？
    */
	nice(19);
	// now the user is "judger"
    //这时的工作目录分布：
    ///home/judge/run0/data.in
    ///home/judge/run0/Main.exe
    ///home/judge/run0/ce.txt
    ///home/judge/run0/main.c
    ///home/judge/run0/user.out
    ///home/judge/run0/error.out
	chdir(work_dir);
	// open the files
    //使输入输出重定向到文件里，方便最后的评判
	if(lang==18){
		execute_cmd("/usr/bin/sqlite3 %s/data.db < %s", work_dir,data_file_path);
		execute_cmd("/bin/chown judge %s/data.db", work_dir);
		freopen("Main.sql", "r", stdin);
	}else{
		if(copy_data)
			freopen("data.in", "r", stdin);
		else{
			printf("infile: [%s]\n",data_file_path);
			freopen(data_file_path,"r",stdin);
		}
	}
	execute_cmd("touch %s/user.out", work_dir);

	if (copy_data){
		execute_cmd("chgrp judge %s/user.out %s/data.in", work_dir,work_dir);
		execute_cmd("chmod 740 %s/data.in", work_dir);
	}
	execute_cmd("chmod 760 %s/user.out", work_dir);
	freopen("user.out", "w", stdout);
	freopen("error.out", "a+", stderr);
    /*
        ptrace系统函数。 ptrace提供了一种使父进程得以监视和控制其它进程的方式，
        它还能够改变子进程中的寄存器和内核映像，因而可以实现断点调试和系统调用的跟踪。
        使用ptrace，你可以在用户层拦截和修改系统调用(sys call).
        形式：ptrace(PTRACE_TRACEME,0 ,0 ,0)
        描述：本进程被其父进程所跟踪。其父进程应该希望跟踪子进程。
    */
	ptrace(PTRACE_TRACEME, 0, NULL, NULL);
	// run me
    /*
    chroot是内核中的一个系统调用，软件可以通过调用库函数chroot，来更改某个进程所能见到的根目录
    1.限制CHROOT环境下的使用者所能行的程式，如SetUid的程式，或是造成 Load 的 Compiler等等
    2.防止使用者存取某些特定档案及配置文件，如/etc/passwd
    3.防止入侵者/bin/rm -rf /
    4.提供Guest服务及限制不守规矩的使用者。
    5.增强系系统的安全。安全机制？
    可是chroot 需要root权限运行啊，不是已经将该进程权限降低的最低的19了啊 ？
    */
	if (
		 lang != 3 && lang != 20 && lang != 9 && !(lang ==6 && python_free )
	   ){
		if(DEBUG)printf("Chrooting...\n");
		chroot(work_dir);
	}
    /*
    这附近的代码涉及到的用户角色和权限的转换不是很理解，判题进程创建的执行子进程，难道有root权限？
    这里又把权限设置到了judge用户1536
    */
	while (setgid(1536) != 0)
		sleep(1);
	while (setuid(1536) != 0)
		sleep(1);
	while (setresuid(1536, 1536, 1536) != 0)
		sleep(1);

	// har java_p1[BUFFER_SIZE], java_p2[BUFFER_SIZE];
	// child
	// set the limit
	struct rlimit LIM; // time limit, file limit& memory limit
	// time limit
    //难道oi_mode是秒和毫秒的区别？
    //看不懂什么意思
    //设置运行时间、内存限制
	if (time_limit_to_total)
		LIM.rlim_cur = (time_lmt / cpu_compensation - usedtime / 1000.0f) + 1;
	else
		LIM.rlim_cur = time_lmt / cpu_compensation + 1;
	LIM.rlim_max = LIM.rlim_cur;
	//if(DEBUG) printf("LIM_CPU=%d",(int)(LIM.rlim_cur));
	setrlimit(RLIMIT_CPU, &LIM);
	alarm(0);
	if ( num_of_test >0 )
		alarm( num_of_test * time_lmt / cpu_compensation);
	else
		alarm( time_lmt / cpu_compensation);
	// file limit
	LIM.rlim_max = STD_F_LIM + STD_MB;
	LIM.rlim_cur = STD_F_LIM;
	setrlimit(RLIMIT_FSIZE, &LIM);
	// proc limit
	switch (lang)
	{
	case 17:
	case 9: //C#
	case 3: //java
		LIM.rlim_cur = LIM.rlim_max = 880;
		break;
	case 4: //ruby
	case 6:  //python
	case 12:
	case 16:
	case 20:
		LIM.rlim_cur = LIM.rlim_max = 200;
		break;
	case 5: //bash
		LIM.rlim_cur = LIM.rlim_max = 3;
		break;
	default:
		LIM.rlim_cur = LIM.rlim_max = 1;
	}

	setrlimit(RLIMIT_NPROC, &LIM);

	// set the stack
	LIM.rlim_cur = STD_MB << 8;
	LIM.rlim_max = STD_MB << 8;
	setrlimit(RLIMIT_STACK, &LIM);
	// set the memory
	LIM.rlim_cur = STD_MB * mem_lmt / 2 * 3;
	LIM.rlim_max = STD_MB * mem_lmt * 2;
	if (lang < 3 || lang == 10 || lang == 13 || lang == 14 || lang == 17)
		setrlimit(RLIMIT_AS, &LIM);
	switch (lang)
	{
	case 0:
	case 1:
		execle("./Main", "./Main", (char *)NULL,envp);
		break;
	case 3:
		sprintf(java_xmx, "-Xmx%dM", mem_lmt);
		execl("/usr/bin/java", "/usr/bin/java",java_xmx ,
				"-Djava.security.manager",
				"-Djava.security.policy=./java.policy", "Main", (char *) NULL);
		break;
	case 6: //Python
		if (!py2)
		{   if(python_free)
			    execl("/usr/bin/python2", "/usr/bin/python2", "Main.py", (char *)NULL);
			else
			    execl("/python2", "/python2", "Main.py", (char *)NULL);
		}
		else
		{   if(python_free)
			    execl("/usr/bin/python3", "/usr/bin/python3", "Main.py", (char *)NULL);
			else
			    execle("/python3", "/python3", "Main.py", (char *)NULL, envp);
		}
		break;
	}
	fflush(stderr);
	exit(0);
}
int fix_python_mis_judge(char *work_dir, int &ACflg, int &topmemory,
						 int mem_lmt)
{
	int comp_res = OJ_AC;

	comp_res = execute_cmd(
		"/bin/grep 'MemoryError'  %s/error.out", work_dir);

	if (!comp_res)
	{
		printf("Python need more Memory!");
		ACflg = OJ_ML;
		topmemory = mem_lmt * STD_MB;
	}

	return comp_res;
}

int fix_java_mis_judge(char *work_dir, int &ACflg, int &topmemory,
					   int mem_lmt)
{
	int comp_res = OJ_AC;
	execute_cmd("chmod 700 %s/error.out", work_dir);
	if (DEBUG)
		execute_cmd("cat %s/error.out", work_dir);
	comp_res = execute_cmd("/bin/grep 'Exception'  %s/error.out", work_dir);
	if (!comp_res)
	{
		printf("Exception reported\n");
		ACflg = OJ_RE;
	}
	execute_cmd("cat %s/error.out", work_dir);

	comp_res = execute_cmd(
		"/bin/grep 'java.lang.OutOfMemoryError'  %s/error.out", work_dir);

	if (!comp_res)
	{
		printf("JVM need more Memory!");
		ACflg = OJ_ML;
		topmemory = mem_lmt * STD_MB;
	}

	if (!comp_res)
	{
		printf("JVM need more Memory or Threads!");
		ACflg = OJ_ML;
		topmemory = mem_lmt * STD_MB;
	}
	comp_res = execute_cmd("/bin/grep 'Could not create'  %s/error.out",
						   work_dir);
	if (!comp_res)
	{
		printf("jvm need more resource,tweak -Xmx(OJ_JAVA_BONUS) Settings");
		ACflg = OJ_RE;
		//topmemory=0;
	}
	return comp_res;
}
int special_judge(char *oj_home, int problem_id, char *infile, char *outfile,
				  char *userfile)
{

	pid_t pid;
	if (DEBUG) printf("pid=%d\n", problem_id);
	// prevent privileges settings caused spj fail in [issues686]
	execute_cmd("chown www-data:judge %s/data/%d/spj %s %s %s", oj_home, problem_id,infile, outfile, userfile);
	execute_cmd("chmod 750 %s/data/%d/spj %s %s %s", oj_home, problem_id,infile, outfile, userfile);

	pid = fork();
	int ret = 0;
	if (pid == 0)
	{

		while (setgid(1536) != 0)
			sleep(1);
		while (setuid(1536) != 0)
			sleep(1);
		while (setresuid(1536, 1536, 1536) != 0)
			sleep(1);

		struct rlimit LIM; // time limit, file limit& memory limit

		LIM.rlim_cur = 5;
		LIM.rlim_max = LIM.rlim_cur;
		setrlimit(RLIMIT_CPU, &LIM);
		alarm(0);
		alarm(10);

		// file limit
		LIM.rlim_max = STD_F_LIM + STD_MB;
		LIM.rlim_cur = STD_F_LIM;
		setrlimit(RLIMIT_FSIZE, &LIM);

		ret = execute_cmd("%s/data/%d/spj %s %s %s", oj_home, problem_id,
						  infile, outfile, userfile);
		if (DEBUG)
			printf("spj1=%d\n", ret);
		if (ret)
			exit(1);
		else
			exit(0);
	}
	else
	{
		int status;

		waitpid(pid, &status, 0);
		ret = WEXITSTATUS(status);
		if (DEBUG)
			printf("spj2=%d\n", ret);
	}
	return ret;
}
void judge_solution(int &ACflg, int &usedtime, double time_lmt, int isspj,
					int p_id, char *infile, char *outfile, char *userfile, int &PEflg,
					int lang, char *work_dir, int &topmemory, int mem_lmt,
					int solution_id, int num_of_test)
{
	//usedtime-=1000;
	int comp_res;
	if (!oi_mode)
		num_of_test = 1.0;

	if (ACflg == OJ_AC){
		int real_limit=1000;
		if(time_limit_to_total){                 // 如果限制总时间
			real_limit=time_lmt*1000;
			if(total_time>real_limit) ACflg = OJ_TL;   // 总时间超过
			if(usedtime> real_limit) ACflg = OJ_TL;    // 单点超过
		}else if(num_of_test>0){                        // 如果数据点不为0，且限制单点时间
			real_limit=num_of_test*time_lmt*1000;
			//if(total_time>real_limit) ACflg = OJ_TL;  //总时间超过测试点数*限制
			if(usedtime> time_lmt*1000) ACflg = OJ_TL; // 单点超过限制
		}else{                                            //测试数为0 ，这种情况不应该出现，但给出，作为保险。
			real_limit=time_lmt*1000; // fallback
			if(usedtime > real_limit) ACflg = OJ_TL;
			if(total_time>real_limit) ACflg = OJ_TL;
		}
	}
	if (topmemory > mem_lmt * STD_MB)
		ACflg = OJ_ML; //issues79
	// compare
	if (ACflg == OJ_AC)
	{
		if (isspj)
		{
			comp_res = special_judge(oj_home, p_id, infile, outfile, userfile);

			if (comp_res == 0)
				comp_res = OJ_AC;
			else
			{
				if (DEBUG)
					printf("fail test %s\n", infile);
				comp_res = OJ_WA;
			}
		}
		else
		{
			comp_res = compare(outfile, userfile,infile);
		}
		if (comp_res == OJ_WA)
		{
			ACflg = OJ_WA;
			if (DEBUG)
				printf("fail test %s\n", infile);
		}
		else if (comp_res == OJ_PE)
			PEflg = OJ_PE;
		ACflg = comp_res;
	}
	//jvm popup messages, if don't consider them will get miss-WrongAnswer
	if (lang == 3)
	{
		comp_res = fix_java_mis_judge(work_dir, ACflg, topmemory, mem_lmt);
	}
	if (lang == 6)
	{
		comp_res = fix_python_mis_judge(work_dir, ACflg, topmemory, mem_lmt);
	}
}

int get_page_fault_mem(struct rusage &ruse, pid_t &pidApp)
{
	//java use pagefault
	int m_vmpeak, m_vmdata, m_minflt;
	m_minflt = ruse.ru_minflt * getpagesize();
	if (0 && DEBUG)
	{
		m_vmpeak = get_proc_status(pidApp, "VmPeak:");
		m_vmdata = get_proc_status(pidApp, "VmData:");
		printf("VmPeak:%d KB VmData:%d KB minflt:%d KB\n", m_vmpeak, m_vmdata,
			   m_minflt >> 10);
	}
	return m_minflt;
}
void print_runtimeerror(char* infile,char *err)
{
	FILE *ferr = fopen("error.out", "a+");
	fprintf(ferr, "%s:%s\n",infile, err);
	fclose(ferr);
}
void clean_session(pid_t p)
{
	//char cmd[BUFFER_SIZE];
	const char *pre = "ps awx -o \"\%p \%P\"|grep -w ";
	const char *post = " | awk \'{ print $1  }\'|xargs kill -9";
	execute_cmd("%s %d %s", pre, p, post);
	execute_cmd("ps aux |grep \\^judge|awk '{print $2}'|xargs kill");
}

/*
功能：
	1、ACflg初始为OJ_AC，在这里各种跟踪调试，时刻判断各种可能的不合理情况
	修改标志位，结束执行子进程 ---这段好底层。。。。调试器原理？？？高端
输入：
    pidApp: 执行子进程的pid
	infile: char * infile[] 在main()中定义，保存完整测试数据路径：/home/judge/data/1000/sample.in 或 /home/judge/data/1000/test.in
	ACflg : 程序执行结果标志，初始OJ_AC
	isspj : 不知什么意思？？？？？？？？？？？
	solution_id: 代评测题目id
	lang : 程序语言类型 c 0 c++ 1
	topmemory: 在main()中定义
	mem_lmt : 内存限制
	usedtime : 执行所耗时间
	time_lmt : 时间限制
	p_id : 问题id
	PEFlg : 未知 初始为OJ_AC
	work_dir : /home/judge/run0
输出：
    无
调用：
    在main()中调用
    watch_solution(pidApp, infile, ACflg, isspj, userfile, outfile,
					solution_id, lang, topmemory, mem_lmt, usedtime, time_lmt,
					p_id, PEflg, work_dir);
注释：2014-11-04 18:30 by ghf in HNSSYZX ZhengZhou
*/
void watch_solution(pid_t pidApp, char *infile, int &ACflg, int isspj,
					char *userfile, char *outfile, int solution_id, int lang,
					int &topmemory, int mem_lmt, int &usedtime, double time_lmt, int &p_id,
					int &PEflg, char *work_dir)
{
	// parent
	int tempmemory = 0;

	if (DEBUG)
		printf("pid=%d judging %s\n", pidApp, infile);

	int status, sig, exitcode;
    //与ptrace 相互配合，来进行跟踪调试执行子进程
	struct user_regs_struct reg;
	struct rusage ruse;
	int first = true;
	while (1)
	{
		// check the usage
        //跟踪调试
		wait4(pidApp, &status, __WALL, &ruse);
		if (first)
		{ //
			ptrace(PTRACE_SETOPTIONS, pidApp, NULL, PTRACE_O_TRACESYSGOOD | PTRACE_O_TRACEEXIT
				   //	|PTRACE_O_EXITKILL
				   //	|PTRACE_O_TRACECLONE
				   //	|PTRACE_O_TRACEFORK
				   //	|PTRACE_O_TRACEVFORK
			);
		}

		//jvm gc ask VM before need,so used kernel page fault times and page size
		if (lang == 3 || lang == 7 || lang == 9 || lang == 13 || lang == 14 || lang == 16 || lang == 17 || lang == 20)
		{
			tempmemory = get_page_fault_mem(ruse, pidApp);
		}
		else
		{ //other use VmPeak
			tempmemory = get_proc_status(pidApp, "VmPeak:") << 10;
		}
        //内存超了就退出，并修改ACflg
		if (tempmemory > topmemory)
			topmemory = tempmemory;
		if (topmemory > mem_lmt * STD_MB)
		{
			if (DEBUG)
				printf("out of memory %d\n", topmemory);
			if (ACflg == OJ_AC)
				ACflg = OJ_ML;
			ptrace(PTRACE_KILL, pidApp, NULL, NULL);//杀死子进程，停止执行
			break;
		}
		//sig = status >> 8;/*status >> 8 EXITCODE*/

		if (WIFEXITED(status))
			break;
		if ((lang < 4||lang == 5 || lang == 9) && get_file_size("error.out") && !oi_mode)
		{
			ACflg = OJ_RE;
			//addreinfo(solution_id);
			ptrace(PTRACE_KILL, pidApp, NULL, NULL);
			break;
		}

		if (!isspj && get_file_size(userfile) > get_file_size(outfile) * 2 + 1024)
		{
			ACflg = OJ_OL;
			ptrace(PTRACE_KILL, pidApp, NULL, NULL);
			break;
		}

		exitcode = WEXITSTATUS(status);
		/*exitcode == 5 waiting for next CPU allocation          * ruby using system to run,exit 17 ok
		 *  Runtime Error:Unknown signal xxx need be added here
                 */
		if ((lang >= 3 && exitcode == 17) || exitcode == 0x05 || exitcode == 0 || exitcode == 133)
			//go on and on
			;
		else
		{

			if (DEBUG)
			{
				printf("status>>8=%d\n", exitcode);
			}
			//psignal(exitcode, NULL);

			if (ACflg == OJ_AC)
			{
				switch (exitcode)
				{
				case SIGCHLD:
				case SIGALRM:
					alarm(0);
					if (DEBUG)
						printf("alarm:%g\n", time_lmt);
				case SIGKILL:
				case SIGXCPU:
					ACflg = OJ_TL;
					usedtime = time_lmt * 1000;
					if (DEBUG)
						printf("TLE:%d\n", usedtime);
					break;
				case SIGXFSZ:
					ACflg = OJ_OL;
					break;
				default:
					ACflg = OJ_RE;
				}
				print_runtimeerror(infile+strlen(oj_home)+5,strsignal(exitcode));
			}
			ptrace(PTRACE_KILL, pidApp, NULL, NULL);

			break;
		}
		if (WIFSIGNALED(status))
		{
			/*  WIFSIGNALED: if the process is terminated by signal
			 *
			 *  psignal(int sig, char *s)，like perror(char *s)，print out s, with error msg from system of sig
			 * sig = 5 means Trace/breakpoint trap
			 * sig = 11 means Segmentation fault
			 * sig = 25 means File size limit exceeded
			 */
			sig = WTERMSIG(status);

			if (DEBUG)
			{
				printf("WTERMSIG=%d\n", sig);
				psignal(sig, NULL);
			}
			if (ACflg == OJ_AC)
			{
				switch (sig)
				{
				case SIGCHLD:
				case SIGALRM:
					alarm(0);
				case SIGKILL:
				case SIGXCPU:
					ACflg = OJ_TL;
					break;
				case SIGXFSZ:
					ACflg = OJ_OL;
					break;

				default:
					ACflg = OJ_RE;
				}
				print_runtimeerror(infile+strlen(oj_home)+5,strsignal(sig));
			}
			break;
		}
		/*     comment from http://www.felix021.com/blog/read.php?1662

		 WIFSTOPPED: return true if the process is paused or stopped while ptrace is watching on it
		 WSTOPSIG: get the signal if it was stopped by signal
		 */

		// check the system calls
	if (!use_ptrace){
		ptrace(PTRACE_SYSCALL, pidApp, NULL, NULL);
		continue;

	}
#ifdef __mips__
//		if(exitcode!=5&&exitcode!=133){
	//https://github.com/strace/strace/blob/master/linux/mips/syscallent-n32.h#L344
		ptrace(PTRACE_GETREGS, pidApp, NULL, &reg);
		call_id=(unsigned int)reg.REG_SYSCALL;
		if( (call_id > 1000 && call_id <5000 )|| (lang == 6 && call_id < 5500)  || call_id> 6500){
		    // not a valid syscall
			ptrace(PTRACE_SYSCALL, pidApp, NULL, NULL);
			continue;
		}else{
			call_id = call_id % call_array_size;
			//printf("call_id:%x\n",call_id);
#endif
#ifdef __arm__
		call_id=ptrace(PTRACE_GETREGS, pidApp, NULL, &reg);
		call_id = ((unsigned int)reg.REG_SYSCALL) % call_array_size;
#endif
#ifdef __aarch64__
		call_id=ptrace(PTRACE_GETREGS, pidApp, (void *)NT_ARM_SYSTEM_CALL, &reg);
		print_arm_regs(reg.regs);
		printf("return call_id:%d\n",call_id);
		call_id = ((unsigned int)reg.REG_SYSCALL) % call_array_size;
		printf("regist call_id:%d\n",call_id);
#endif
#ifdef __i386__
		call_id=ptrace(PTRACE_GETREGS, pidApp, NULL, &reg);
			call_id = ((unsigned int)reg.REG_SYSCALL) % call_array_size;
#endif
#ifdef __x86_64__
		call_id=ptrace(PTRACE_GETREGS, pidApp, NULL, &reg);
			call_id = ((unsigned int)reg.REG_SYSCALL) % call_array_size;
#endif


			if (record_call)
			{
				printf("new call id:%d\n",call_id);
				call_counter[call_id]++;
				printf("call %d: %d\n",call_id,call_counter[call_id]);
			}else if (call_counter[call_id])
			{
				call_counter[call_id]--;
			}
			else
			{ //do not limit JVM syscall for using different JVM
			//	ACflg = OJ_RE;
				char error[BUFFER_SIZE];
				sprintf(error,
						"[ERROR] solution_id:%d called a Forbidden system call:%u [%u]\n"
						" TO FIX THIS , ask admin to add the CALLID into corresponding LANG_XXV[] located at okcalls32/64.h ,\n"
						"and recompile judge_client. \n"
						"if you are admin and you don't know what to do ,\n"
						"chinese explaination can be found on https://zhuanlan.zhihu.com/p/24498599\n",
						solution_id, call_id,(unsigned int)reg.REG_SYSCALL);

				write_log(error);
				print_runtimeerror(infile+strlen(oj_home)+5,error);
				//ptrace(PTRACE_SYSCALL, pidApp, NULL, NULL);
				//continue;
				ptrace(PTRACE_KILL, pidApp, NULL, NULL);

			}
			call_id=0;
#ifdef __mips__
//		   }
		}
#endif
		ptrace(PTRACE_SYSCALL, pidApp, NULL, NULL);
		first = false;
		//usleep(1);
	}
	usedtime += (ruse.ru_utime.tv_sec * 1000 + ruse.ru_utime.tv_usec / 1000) * cpu_compensation;
	usedtime += (ruse.ru_stime.tv_sec * 1000 + ruse.ru_stime.tv_usec / 1000) * cpu_compensation;

	//clean_session(pidApp);
}

//清空目录
void clean_workdir(char *work_dir)
{
    //卸载 /home/judge/run0 下的文件系统 /proc
	umount(work_dir);
	if (DEBUG)
	{//如果调试则删除日志文件
		execute_cmd("/bin/rmdir %s/log/* 2>/dev/null", work_dir);
		execute_cmd("/bin/rm -rf %s/log/* 2>/dev/null", work_dir);
		execute_cmd("mkdir %s/log/ 2>/dev/null", work_dir);
		execute_cmd("/bin/mv %s/* %s/log/ 2>/dev/null", work_dir, work_dir);
	}
	else
	{//没调试则删除/home/judge/run0 下所有文件 -rf 递归强制删除所有目录与文件，不提示
		execute_cmd("mkdir %s/log/ 2>/dev/null", work_dir);
		execute_cmd("/bin/mv %s/* %s/log/ 2>/dev/null", work_dir, work_dir);
		execute_cmd("/bin/rmdir %s/log/* 2>/dev/null", work_dir);
		execute_cmd("/bin/rm -rf %s/log/* 2>/dev/null", work_dir);
	}
}

//在judge.cc中调用参数
//runidstr  : solution_id 的字符串 参数1
//buf		: clientid   也就是进程id字符串
//oj_home	: /home/judge
//execl("/usr/bin/judge_client", "/usr/bin/judge_client", runidstr, buf,
//				oj_home, (char *) NULL);
//argv[0] 指向程序运行的全路径名
//argv[1] 指向在DOS命令行中执行程序名后的第一个字符串
//argv[2] 指向执行程序名后的第二个字符串
void init_parameters(int argc, char **argv, int &solution_id,
					 int &runner_id)
{
	if (argc < 3)//如果参数小于3个，则报错退出
	{
		fprintf(stderr,"GOJ judge_client ver 20201127\n\n");
		fprintf(stderr, "Normal Usage:\n\t%s <solution_id> <runner_id>\n\n", argv[0]);
		fprintf(stderr, "Multi OJ with Specific home :\n\t%s <solution_id> <runner_id> [judge_base_path].\n\n",
				argv[0]);
		fprintf(stderr,
				"Debug with Specific home:\n\t%s <solution_id> <runner_id> [judge_base_path] [debug].\n\n",
				argv[0]);
		fprintf(stderr,"\n\n");
		fprintf(stderr,"Example:\n\tsudo %s 1001 0 /home/judge/ debug  \n\n",argv[0]);
		exit(1);
	}
    //参数大于4个则启用调试？ ，默认4个所以0
	DEBUG = (argc > 4);
	record_call = (argc > 5);
	if (argc > 5)//第6个参数，评测语言
	{
		strcpy(LANG_NAME, argv[5]);
	}
	if (argc > 3)//第4个参数，评测目录
		strcpy(oj_home, argv[3]);
	else//否则默认目录设置为/home/judge
		strcpy(oj_home, "/home/judge");
	//切换当前默认目录为/home/judge
	chdir(oj_home); // change the dir// init our work

	solution_id = atoi(argv[1]);
	runner_id = atoi(argv[2]);
}
int get_sim(int solution_id, int lang, int pid, int &sim_s_id)
{
	char src_pth[BUFFER_SIZE];
	//char cmd[BUFFER_SIZE];
	sprintf(src_pth, "Main.%s", lang_ext[lang]);

	int sim = execute_cmd("/usr/bin/sim.sh %s %d", src_pth, pid);
	if (!sim)
	{
		execute_cmd("/bin/mkdir ../data/%d/ac/ 2>/dev/null", pid);

		execute_cmd("/bin/cp %s ../data/%d/ac/%d.%s 2>/dev/null", src_pth, pid, solution_id,
					lang_ext[lang]);
		//c cpp will
		if (lang == 0)
			execute_cmd("/bin/ln ../data/%d/ac/%d.%s ../data/%d/ac/%d.%s 2>/dev/null", pid,
						solution_id, lang_ext[lang], pid, solution_id,
						lang_ext[lang + 1]);
		if (lang == 1)
			execute_cmd("/bin/ln ../data/%d/ac/%d.%s ../data/%d/ac/%d.%s 2>/dev/null", pid,
						solution_id, lang_ext[lang], pid, solution_id,
						lang_ext[lang - 1]);
	}
	else
	{

		FILE *pf;
		pf = fopen("sim", "r");
		if (pf)
		{
			fscanf(pf, "%d%d", &sim, &sim_s_id);
			fclose(pf);
		}
	}
	if (solution_id <= sim_s_id)
		sim = 0;
	return sim;
}
void mk_shm_workdir(char *work_dir)
{
	char shm_path[BUFFER_SIZE];
	sprintf(shm_path, "/dev/shm/goj/%s", work_dir);
	execute_cmd("/bin/mkdir -p %s  2>/dev/null", shm_path);
	execute_cmd("/bin/ln -s %s %s/  2>/dev/null", shm_path, oj_home);
	execute_cmd("/bin/chown judge %s  2>/dev/null", shm_path);
	execute_cmd("chmod 755 %s  2>/dev/null", shm_path);
	//sim need a soft link in shm_dir to work correctly
	sprintf(shm_path, "/dev/shm/goj/%s/", oj_home);
	execute_cmd("/bin/ln -s %s/data %s  2>/dev/null", oj_home, shm_path);
}
int count_in_files(char *dirpath)
{
	const char *cmd = "ls -l %s/*.in|wc -l";
	int ret = 0;
	FILE *fjobs = read_cmd_output(cmd, dirpath);
	fscanf(fjobs, "%d", &ret);
	pclose(fjobs);

	return ret;
}

int get_test_file(char *work_dir, int p_id)
{
	char filename[BUFFER_SIZE/10];
	char localfile[BUFFER_SIZE];
	time_t remote_date, local_date;
	int ret = 0;
	const char *cmd =
		" wget --post-data=\"gettestdatalist=1&time=1&pid=%d\" --load-cookies=cookie --save-cookies=cookie --keep-session-cookies -q -O - \"%s/admin/problem_judge.php\"";
	FILE *fjobs = read_cmd_output(cmd, p_id, http_baseurl);
	while (fgets(filename, BUFFER_SIZE - 1, fjobs) != NULL)
	{

		sscanf(filename, "%ld", &remote_date);
		if (fgets(filename, BUFFER_SIZE - 1, fjobs) == NULL)
			break;
		sscanf(filename, "%s", filename);
		if (http_judge && (!data_list_has(filename)))
			data_list_add(filename);
		sprintf(localfile, "%s/data/%d/%s", oj_home, p_id, filename);
		if (DEBUG)
			printf("localfile[%s]\n", localfile);

		struct stat fst;
		stat(localfile, &fst);
		local_date = fst.st_mtime;

		if (access(localfile, 0) == -1 || local_date < remote_date)
		{

			if (strcmp(filename, "spj") == 0)
				continue;
			execute_cmd("/bin/mkdir -p %s/data/%d", oj_home, p_id);
			const char *cmd2 =
				" wget --post-data=\"gettestdata=1&filename=%d/%s\" --load-cookies=cookie --save-cookies=cookie --keep-session-cookies -q -O \"%s\"  \"%s/admin/problem_judge.php\"";
			execute_cmd(cmd2, p_id, filename, localfile, http_baseurl);
			ret++;

			if (strcmp(filename, "spj.c") == 0)
			{
				//   sprintf(localfile,"%s/data/%d/spj.c",oj_home,p_id);
				if (access(localfile, 0) == 0)
				{
					const char *cmd3 = "gcc -o %s/data/%d/spj %s/data/%d/spj.c";
					execute_cmd(cmd3, oj_home, p_id, oj_home, p_id);
				}
			}
			if (strcmp(filename, "spj.cc") == 0)
			{
				//     sprintf(localfile,"%s/data/%d/spj.cc",oj_home,p_id);
				if (access(localfile, 0) == 0)
				{
					const char *cmd4 =
						"g++ -o %s/data/%d/spj %s/data/%d/spj.cc";
					execute_cmd(cmd4, oj_home, p_id, oj_home, p_id);
				}
			}
		}
	}
	pclose(fjobs);

	return ret;
}
void print_call_array()
{
	printf("int LANG_%sV[CALL_ARRAY_SIZE]={", LANG_NAME);
	int i = 0;
	for (i = 0; i < call_array_size; i++)
	{
		if (call_counter[i]>0)
		{
			printf("%d,", i);
		}
	}
	printf("0};\n");

	printf("int LANG_%sC[CALL_ARRAY_SIZE]={", LANG_NAME);
	for (i = 0; i < call_array_size; i++)
	{
		if (call_counter[i])
		{
			printf("%d,",call_counter[i]);
		}
	}
	printf("0};\n");
}
int mark_of_name(const char * name){
	int mark;
	printf("reading mark from %s \n",name);
	if(sscanf(name,"%*[^\[][%d]",&mark)==1){
		printf("reading mark %d \n",mark);
		return mark;
	}else{
		return 10;
	}
}
//在judge.cc中调用参数
//runidstr  : solution_id 的字符串 参数1
//buf		: clientid   也就是进程id字符串
//oj_home	: /home/judge
//execl("/usr/bin/judge_client", "/usr/bin/judge_client", runidstr, buf,
//				oj_home, (char *) NULL);
//argv[0] 指向程序运行的全路径名
//argv[1] 指向在DOS命令行中执行程序名后的第一个字符串
//argv[2] 指向执行程序名后的第二个字符串

int main(int argc, char **argv)
{

	char work_dir[BUFFER_SIZE];//工作目录
	//char cmd[BUFFER_SIZE];
	//char user_id[BUFFER_SIZE];//用户id
	int user_id;
	int solution_id = 1000;//题目id
	int runner_id = 0;//进程id
	int p_id,  mem_lmt, lang, isspj, sim, sim_s_id, max_case_time = 0,cid=0;
	double time_lmt;
	char time_space_table[BUFFER_SIZE*100];
	int time_space_index=0;
    //初始化参数，代评测id， 进程id ，评测目录 ,DEBUG,RECORD_CALL
	init_parameters(argc, argv, solution_id, runner_id);
    //初始化数据库链接信息，读取/home/judge/etc/judge.conf，初始化conn
	init_mysql_conf();

#ifdef _mysql_h
    //如果是轮询数据库，并且数据库链接失败，那么退出
	if (!http_judge && !init_mysql_conn())
	{
		exit(0); //exit if mysql is down
	}
#endif
	//set work directory to start running & judging
	sprintf(work_dir, "%s/run%s/", oj_home, argv[2]);
	sprintf(lock_file,"%s/client%s.pid",oj_home,argv[2]);

	if ( already_running()) {
		syslog(LOG_ERR | LOG_DAEMON,
				"This working directory is occupied !\n");
		printf("%s already has one judge_client in it!\n",work_dir);
		return 1;
	}

	if (shm_run){
		mk_shm_workdir(work_dir);
	}else{
		execute_cmd("mkdir %s",work_dir);
	}
	
	clean_workdir(work_dir);
    //进入/home/judge/run0 并设置为当前工作 目录
	chdir(work_dir);

	if (http_judge)
		system("/bin/ln -s ../cookie ./");
    //读取数据库solution表依据solution_id,初始化p_id问题id,user_id用户id，lang编程语言编码
	get_solution_info(solution_id, p_id, user_id, lang,cid);
	//get the limit

    //读取运行时间、内存限制，如果是test则默认值
	if (p_id == 0)
	{
		time_lmt = 5;
		mem_lmt = 128;
		isspj = 0;
	}
	else
	{
		get_problem_info(p_id, time_lmt, mem_lmt, isspj);
	}
	//copy source file

    //根据情况读取源程序代码
    //默认是将源码从数据库中读取到/home/judge/run0/ 建立Main.c
	get_solution(solution_id, work_dir, lang);

    //独立处理java
	//java and other VM language are lucky to have the global bonus in judge.conf
	if (lang >= 3 && lang != 10 && lang != 13 && lang != 14 && lang != 17)
	{ //ObjectivC Clang Clang++ Go not VM or Script
		// the limit for java
		time_lmt = time_lmt + java_time_bonus;
		mem_lmt = mem_lmt + java_memory_bonus;
		// copy java.policy
		if (lang == 3)
		{
			execute_cmd("/bin/cp %s/etc/java0.policy %s/java.policy", oj_home, work_dir);
			execute_cmd("chmod 755 %s/java.policy", work_dir);
			execute_cmd("chown judge %s/java.policy", work_dir);
		}
	}

    //对时间内存做出最大上限
	//never bigger than judged set value;
	if (time_lmt > 300 || time_lmt < 0)
		time_lmt = 1;
	if (mem_lmt > 1024 || mem_lmt < 1)
		mem_lmt = 1024;

	if (DEBUG)
		printf("time: %g mem: %d\n", time_lmt, mem_lmt);

	// compile
	//      printf("%s\n",cmd);
	// set the result to compiling
    //编译程序
	int Compile_OK;

	Compile_OK = compile(lang, work_dir);//编译是否完成，成功默认返回0；否则返回错误文件ce.txt的大小
	if (Compile_OK != 0)//编译失败则推出判题进程不需后续执行了
	{
		addceinfo(solution_id);
		update_solution(solution_id, OJ_CE, 0, 0, 0, 0, 0.0);
		if(!turbo_mode)update_user(user_id);
		if(!turbo_mode)update_problem(p_id,cid);
#ifdef _mysql_h
		if (!http_judge)
			mysql_close(conn);
#endif
		clean_workdir(work_dir);
		write_log("compile error");
		exit(0);
	}
	else//如果是除了"rb", "sh", "py",这三种以外的语言，更新表solution
	{
		if (!turbo_mode)
			update_solution(solution_id, OJ_RI, 0, 0, 0, 0, 0.0);
		umount(work_dir);
	}
	//exit(0);
	// run
    //执行编译后程序
	char fullpath[BUFFER_SIZE];///home/judge/data/1000 完整的测试数据目录
	char infile[BUFFER_SIZE/10];
	char outfile[BUFFER_SIZE/10];
	char userfile[BUFFER_SIZE/10];
	sprintf(fullpath, "%s/data/%d", oj_home, p_id); // the fullpath of data dir

	// open DIRs
	//DIR *dp;
	dirent *dirp;
	// using http to get remote test data files
	if (p_id > 0 && http_judge && http_download)
		get_test_file(work_dir, p_id);

    //默认采用的这种，读取目录文件失败则判题子程序退出，-1
	struct dirent **namelist;
        int namelist_len;
	namelist_len = scandir(fullpath,&namelist,inFile,alphasort);
	if(p_id > 0 && namelist_len == -1 ){
		
		write_log("No such dir:%s!\n", fullpath);
#ifdef _mysql_h
		if (!http_judge)
			mysql_close(conn);
#endif
		exit(-1);
	
	}else{
		if(DEBUG){
			printf("total test case:%d \n", namelist_len);
			for(int i=0;i<namelist_len;i++){
				printf("test file %d : %s\n",i+1,namelist[i]->d_name);
			}
		}
		
	}
/*
	if (p_id > 0 && (dp = opendir(fullpath)) == NULL)
	{

		write_log("No such dir:%s!\n", fullpath);
#ifdef _mysql_h
		if (!http_judge)
			mysql_close(conn);
#endif
		exit(-1);
	}
	
	
*/

	int ACflg, PEflg;
	ACflg = PEflg = OJ_AC;
	int namelen;
	int usedtime = 0, topmemory = 0;

	//create chroot for ruby bash python
	if (lang == 4)
		copy_ruby_runtime(work_dir);
	if (lang == 5)
		copy_bash_runtime(work_dir);
	if (lang == 6 && !python_free)
		copy_python_runtime(work_dir);
	if (lang == 7)
		copy_php_runtime(work_dir);
	if (lang == 8)
		copy_perl_runtime(work_dir);
//	if (lang == 9)
//		copy_mono_runtime(work_dir);
	if (lang == 10)
		copy_objc_runtime(work_dir);
	if (lang == 11)
		copy_freebasic_runtime(work_dir);
	if (lang == 12)
		copy_guile_runtime(work_dir);
	if (lang == 15)
		copy_lua_runtime(work_dir);
	if (lang == 16)
		copy_js_runtime(work_dir);
	if (lang == 18)
		copy_sql_runtime(work_dir);
	// read files and run
	// read files and run
	// read files and run
	double pass_rate = 0.0;
	int mark=0,total_mark=0,get_mark=0;
	int finalACflg = ACflg;
    //网页点击的测试
	if (p_id == 0)
	{ //custom input running
		printf("running a custom input...\n");
		get_custominput(solution_id, work_dir);
		init_syscalls_limits(lang);
		pid_t pidApp = fork();

		if (pidApp == 0)
		{
			run_solution(lang, work_dir, time_lmt, usedtime, mem_lmt,(char *)"data.in");
		}
		else
		{
			watch_solution(pidApp, infile, ACflg, isspj, userfile, outfile,
						   solution_id, lang, topmemory, mem_lmt, usedtime, time_lmt,
						   p_id, PEflg, work_dir);
		}
		if(DEBUG) printf("custom running result:%d PEflg:%d\n",ACflg,PEflg);
		if (ACflg == OJ_RE||get_file_size("error.out")>0)
		{
			if (DEBUG)
				printf("add RE info of %d..... \n", solution_id);
			addreinfo(solution_id);
		}
		else
		{
			addcustomout(solution_id);
		}
		update_solution(solution_id, OJ_TR, usedtime, topmemory >> 10, 0, 0, 0);
		clean_workdir(work_dir);
		exit(0);
	}
/*	
	for (;(dirp = readdir(dp)) != NULL;)
	{

		int namelen = isInFile(dirp->d_name); // check if the file is *.in or not
		if (namelen == 0)
			continue;
		num_of_test++;
	}
	rewinddir(dp);
*/	
	num_of_test=namelist_len;
    //真正的submit执行测试
	for (int i=0 ; (oi_mode || ACflg == OJ_AC || ACflg == OJ_PE) && i < namelist_len ;i++)
	{
		dirp=namelist[i];
        //遍历/home/judge/data/1000下的sample.in sample.out test.in test.out
		namelen = isInFile(dirp->d_name); // check if the file is *.in or not
		if (namelen == 0)
			continue;
		mark=mark_of_name(dirp->d_name);
		total_mark+=mark;
		if (http_judge && http_download && (!data_list_has(dirp->d_name)))
			continue;
        //准备好测试数据，初始化，outfile,userfile
		prepare_files(dirp->d_name, namelen, infile, p_id, work_dir, outfile,
					  userfile, runner_id);
		if (access(outfile, 0) == -1)
		{
			//out file does not exist
			char error[BUFFER_SIZE];
			sprintf(error, "missing out file %s, report to system administrator!\n", outfile);
			print_runtimeerror(infile+strlen(oj_home)+5,error);
			ACflg = OJ_RE;
		}
        //这是什么限制？
		init_syscalls_limits(lang);
        //又要创建执行子进程了
		pid_t pidApp = fork();

		if (pidApp == 0)//如果是子进程在执行
		{
            //执行程序，在/run0/下生成user.out结果文件
			run_solution(lang, work_dir, time_lmt, usedtime, mem_lmt,infile);
		}
		else
		{
            //父进程，创建的执行子进程数量+1，这里是不是没有处理如果子进程创建失败该如何
			//num_of_test++;
            //这里没有采用 waitpid()方式，而是采用监视子进程方式ptrace()
            //为什么这样用呢？？？？？？？？？？
            //监视子进程，看齐是否能完整无误执行下来，随时修改ACflg
			watch_solution(pidApp, infile, ACflg, isspj, userfile, outfile,
						   solution_id, lang, topmemory, mem_lmt, usedtime, time_lmt,
						   p_id, PEflg, work_dir);
			printf("%s: mem=%d time=%d\n",infile+strlen(oj_home)+5,topmemory,usedtime);	
			total_time+=usedtime;
			printf("time:%d/%d\n",usedtime,total_time);
            //到这里执行子进程应该是结束了，开始进行结果的判断匹配
			judge_solution(ACflg, usedtime, time_lmt, isspj, p_id, infile,
						   outfile, userfile, PEflg, lang, work_dir, topmemory,
						   mem_lmt, solution_id, num_of_test);
			time_space_index+=sprintf(time_space_table+time_space_index,"%s:%s mem=%dk time=%dms\n",infile+strlen(oj_home)+5,jresult[ACflg],topmemory/1024,usedtime);
			if (use_max_time)
			{
				max_case_time =
					usedtime > max_case_time ? usedtime : max_case_time;
			}
				usedtime = 0;
			//clean_session(pidApp);
		}
		if (oi_mode)
		{
			if (ACflg == OJ_AC)
			{
				++pass_rate;
				get_mark+=mark;
			}
			if (finalACflg < ACflg)
			{
				finalACflg = ACflg;
			}

			ACflg = OJ_AC;
		}
	}
	if (ACflg == OJ_AC && PEflg == OJ_PE)
		ACflg = OJ_PE;
	if (sim_enable && ACflg == OJ_AC && (!oi_mode || finalACflg == OJ_AC))
	{ //bash don't supported
		sim = get_sim(solution_id, lang, p_id, sim_s_id);
	}
	else
	{
		sim = 0;
	}
	//if(ACflg == OJ_RE)addreinfo(solution_id);

	if ((oi_mode && finalACflg == OJ_RE) || ACflg == OJ_RE)
	{
		if (DEBUG)
			printf("add RE info of %d..... \n", solution_id);
		addreinfo(solution_id);
	}
	if (use_max_time)
	{
		if(DEBUG) printf("use max case time:%d\n",max_case_time);
		usedtime = max_case_time;
	}else{
		if(DEBUG) printf("use total time:%d\n",total_time);
		usedtime = total_time;
	}
	
/*	if(usedtime > time_lmt * 1000) {                  // show real time cost
		usedtime = time_lmt * 1000;
	}
*/
	if (oi_mode)
	{
		if (num_of_test > 0){
			pass_rate /= num_of_test;
		}
		if (total_mark > 0 ){
			pass_rate =get_mark;
			pass_rate /= total_mark;
		}
		update_solution(solution_id, finalACflg, usedtime, topmemory >> 10, sim,
						sim_s_id, pass_rate);
	}
	else
	{
		if(ACflg==OJ_AC) pass_rate=1.0;
		else pass_rate=0.0;
		update_solution(solution_id, ACflg, usedtime, topmemory >> 10, sim,
						sim_s_id, pass_rate);
	}
	FILE *df=fopen("diff.out","a");
	fprintf(df,"time_space_table:\n%s\n",time_space_table);
	fclose(df);
	if(DEBUG) printf("ACflg:%d\n",ACflg);
	if(DEBUG) printf("finalACflg:%d\n",finalACflg);
	if(ACflg != 10 && finalACflg!= 10 ) adddiffinfo(solution_id);
	if(!turbo_mode)update_user(user_id);
	if(!turbo_mode)update_problem(p_id,cid);
	clean_workdir(work_dir);

	if (DEBUG)
		write_log("result=%d", oi_mode ? finalACflg : ACflg);
#ifdef _mysql_h
	if (!http_judge)
		mysql_close(conn);
#endif
	if (record_call)
	{
		print_call_array();
	}
	//closedir(dp);
	free(namelist);
	return 0;
}
